A three step manifesto for a smarter, fairer economy

November 27, 2016 38 Comments

(United States GDP plotted against median household income from 1953 to present. Until about 1980, growth in the economy correlated to increases in household wealth. But from 1980 onwards as digital technology has transformed the economy, household income has remained flat despite continuing economic growth)

(United States GDP plotted against median household income from 1953 to present. Until about 1980, growth in the economy correlated to increases in household wealth. But from 1980 onwards as digital technology has transformed the economy, household income has remained flat despite continuing economic growth. From “The Second Machine Age“, by MIT economists Andy McAfee and Erik Brynjolfsson, summarised in this article.)

(Or, why technology created the economy that helped Donald Trump and Brexit to win, and why we have to fix it.)

The world has not just been thrown into crisis because the UK voted in June to leave the European Union, and because the USA has just elected a President whose campaign rhetoric promised to tear up the rulebook of international behaviour (that’s putting it politely; many have accused him of much worse) – including pulling out of the global climate accord that many believe is the bare minimum to save us from a global catastrophe.

Those two choices (neither of which I support, as you might have guessed) were made by people who feel that a crisis has been building for years or even decades, and that the traditional leaders of our political, media and economic institutions have either been ignoring it or, worse, are refusing to address it due to vested interests in the status quo.

That crisis – which is one of worklessness, disenfranchisement and inequality for an increasingly significant proportion of the world’s population – is real; and is evident in figures everywhere:

… and so on.

Brexit and Donald Trump are the wrong solutions to the wrong problems

Of course, leaving the EU won’t solve this crisis for the UK.

Take the supposed need to limit immigration, for example, one of the main reasons people in the UK voted to leave the EU.

The truth is that the UK needs migrants. Firstly, with no immigration, the UK’s birth rate would be much lower than that needed to maintain our current level of population. That means less young people working and paying taxes and more older people relying on state pensions and services. We wouldn’t be able to afford the public services we rely on.

Secondly, the people most likely to start new businesses that grow rapidly and create new jobs aren’t rich people who are offered tax cuts, they’re immigrants and their children. And of course, what will any country in the world, let alone the EU, demand in return for an open trade deal with the UK? Freedom of immigration.

So Brexit won’t fix this crisis, and whilst Donald Trump is showing some signs of moderating the extreme statements he made in his election campaign (like both the “Leave” and “Remain” sides of the abysmal UK Referendum campaign, he knew he was using populist nonsense to win votes, but wasn’t at all bothered by the dishonesty of it), neither will he.

[Update 29/01/17: I take it back: President Trump isn’t moderating his behaviour at all. What a disgrace.]

Whatever his claims to the contrary, Donald Trump’s tax plan will benefit the richest the most. Like most Republican politicians, he promotes policies that are criticised as “trickle-down” economics, in which wealth for all comes from providing tax cuts to rich people and large corporations so they can invest to create jobs.

But this approach does not stand up to scrutiny: history shows that – particularly in times of economic change –  jobs and growth for all require leadership, action and investment from public institutions – in other words they depend on the sensible use of taxation to redistribute the benefits of growth.

(Areas of relative wealth and deprivation in Birmingham as measured by the Indices of Multiple Deprivation. Birmingham, like many of the UK's Core Cities, has a ring of persistently deprived areas immediately outside the city centre, co-located with the highest concentration of transport infrastructure allowing traffic to flow in and out of the centre.)

(Areas of relative wealth and deprivation in Birmingham as measured by the Indices of Multiple Deprivation. Birmingham, like many of the UK’s Core Cities, has a ring of persistently deprived areas immediately outside the city centre, co-located with the highest concentration of transport infrastructure allowing traffic to flow in and out of the centre)

Similarly, scrapping America’s role in the Trans-Pacific Partnership trade deal is unlikely to bring back manufacturing jobs to the US economy at anything like the scale that some of those who voted for Donald Trump hope, and that he’s given the impression it will.

In fact, manufacturing jobs are already rising in the US as the need for agility in production in response to local market conditions outweighs the narrowing difference in manufacturing cost as the salaries of China’s workers have grown along with its economy.

However, the real challenge is that the skills required to secure and perform those jobs have changed: factory workers need increasingly technical skills to manage the robotic machinery that now performs most of the work.

Likewise, jobs in the US coal industry won’t return by changing the way the US trades with foreign countries. The American coal mined in some areas of the country has become an uncompetitive fuel compared to the American shale gas that is made accessible in other areas by the new technology of “fracking”. (I’m not in favour of fracking; I’d prefer we concentrate our resources developing genuinely low-carbon, renewable energy sources. My point is that Donald Trump’s policies won’t address the job dislocation it has caused).

So, if the UK’s choice to leave the EU and the USA’s choice to elect Donald Trump represent the wrong solutions to the wrong problems, what are the underlying problems that are creating a crisis? And how do we fix them?

The crisis begins in places that don’t work

When veteran BBC journalist John Humphreys travelled the UK to meet communities which have experienced a high degree of immigration, he found that immigration itself isn’t a problem. Rather, the rise in population  caused by immigration becomes a problem when it’s not accompanied by investment in local infrastructure, services and business support. Immigrants are the same as people everywhere: they want to work; they start businesses (and in fact, they’re more likely to do that well than those of us who live and work in the country where we’re born); and they do all the other things that make communities thrive.

But the degree to which people – whether they’re immigrants or not – are successful doing so depends on the quality of their local environment, services and economy. And the reality is that there are stark, place-based differences in the opportunity people are given to live a good life.

In UK cities, life expectancy between the poorest and richest parts of the same city varies by up to 28 years. Areas of low life expectancy typically suffer from “multiple deprivation“: poor health, low levels of employment, low income, high dependency on benefits, poor education, poor access to services … and so on. These issues tend to affect the same areas for decade after decade, and they occur in part because of the effects of the physical urban infrastructure around them.

eu-uk-regional-funding

(The UK’s less wealthy regions benefit enormously from EU investment; whilst it’s richer regions, made wealthy by London’s economy, are net contributors. The EU acts to redistribute UK taxes to the regions that need them most, in a way that the national Government in Westminster does not)

The failure to invest in local services and infrastructure to accommodate influxes of migrants isn’t the EU’s fault; it is caused by the failure of the UK national government to devolve spending power to the local authorities that understand local needs – local authorities in the UK control only 17% of local spending, as opposed to 55% on average across OECD countries.

Ironically, one of the crucial things the EU does (or did) with the UK’s £350 million per week contribution to its budget, a large share of which is paid for by taxes from London’s dominant share of the UK economy, is to give it back to support local infrastructure and projects which create jobs and improve communities. If the Remain campaign had done a better job of explaining the extent of this support, rather than trumpeting overblown scare stories about the national, London-centric economy from which many people feel they don’t benefit anyway, some of the regions most dependent on EU investment might not have voted to Leave.

Technology is exacerbating inequality

We should certainly try to improve urban infrastructure and services; and the “Smart City” movement argues for using digital technology to do so.

But ultimately, infrastructure and services simply support activity that is generated by the economy and by social activity, and the fundamental shift taking place today is not a technological shift that makes existing business models, services or infrastructure more effective. It is the transformation of economic and social interactions by new “platform” business models that exploit online transaction networks that couldn’t exist at all without the technologies we’ve become familiar with over the last decade.

Well known examples include:

  • Apple iTunes, exchanging music between producers and consumers
  • YouTube, exchanging video content between producers and consumers
  • Facebook, an online environment for social activity that has also become a platform for content, games, news, business and community activity
  • AirBnB – an online marketplace for peer-to-peer arrangement of accomodation
  • Über – an online marketplace for peer-to-peer arrangement of transport

… and so on. MIT economist Marshall Van Alstyne’s work shows that platform businesses are increasingly the most valuable and fastest growing in the world, across many sectors.

The last two examples in that list – AirBnB and Über – are particularly good examples of online marketplaces that create transactions that take place face-to-face in the real world; these business models are not purely digital as YouTube, for example, arguably is.

But whilst these new, technology-enabled business models can be extraordinarily successful – Airbnb has been valued at $30 billion only 8 years after it was founded, and Über recently secured investments that, 7 years after it was founded, valued the company at over $60 billion – many economists and social scientists believe that the impact of these new technology-enabled business models is contributing to increasing inequality and social disruption.

As Andy McAfee and Erik Bryjolfsson have explained in theory, and as a recent JP Morgan survey has demonstrated in fact (see graph and text in box below), as traditional businesses that provide permanent employment are replaced by online marketplaces that enable the exchange of casual labour and self-employed work, the share of economic growth that is captured by the owners of capital platforms – the owners and shareholders in companies like Amazon, Facebook and Über – is rising, and the share of economic growth that is distributed to people who provide labour – people who are paid for the work they do; by far the majority of us – is falling.

The impact of technology on the financial services sector is having a similar effect. Technology enables the industry to profit from the construction of increasingly complex derivative products that speculate on sub-second fluctuations in the value of stocks and other tradeable commodities, rather than by making investments in business growth. The effect again is to concentrate the wealth the industry creates into profits for a small number of rich investors rather than distributing it in businesses that more widely provide jobs and pay salaries.

Finally, this is also ultimately the reason why the various shifting forces affecting employment in traditional manufacturing industries – off-shoring, automation, re-shoring etc. – have not resulted in a belief that manufacturing industries are providing widespread opportunities for high quality employment and careers to the people and communities who enjoyed them in the past. Even whilst manufacturing activity grows in many developed countries, jobs in those industries require increasingly technical skills, at the same time that, once again, the majority of the profits are captured by a minority of shareholders rather than distributed to the workforce.

(Analysis by JP Morgan of 260,000 current account customers earnings from 30 sharing economy websites over 3 years. Customers using websites to sell labour do not increase their income; earnings from sharing economy websites simply replace earnings from other sources. Customers using sharing economy websites to exploit the value of capital assets they own, however, are able to increase their income. This evidence supports just one of the mechanisms explored by Andy McAfee and Erik Brynjolfsson through which it appears that the digital economy is contributing to increasing income inequality)

(Analysis by JP Morgan of 260,000 current account customers’ earnings from 30 sharing economy websites over 3 years. Customers using websites to sell labour do not increase their income; earnings from sharing economy websites simply replace earnings from other sources. Customers using sharing economy websites to exploit the value of capital assets they own, however, are able to increase their income. This evidence supports just one of the mechanisms explored by Andy McAfee and Erik Brynjolfsson through which it appears that the digital economy is contributing to increasing income inequality)

That is why inequality is rising across the world; and that is the ultimate cause of the sense of unfairness that led to the choice of people in the UK to leave the EU, and people in the USA to elect Donald Trump as their President.

I do not blame the companies at the heart of these developments for causing inequality – I do not believe that is their aim, and many of their leaders believe passionately that they are a force for good.

But the evidence is clear that their cumulative impact is to create a world that is becoming damagingly unequal, and the reason is straightforward. Our market economies reward businesses that maximise profit and shareholder return; and there is simply no direct link from those basic corporate responsibilities to wider social, economic and environmental outcomes.

There are certainly indirect links – successful businesses need customers with money to spend, and there are more of those when more people have jobs that pay good wages, for example. But technology is increasingly enabling phenomenally successful new business models that depend much less on those indirect links to work.

We’re about to make things worse

Finally, as has been frequently highlighted in the media recently, new developments in technology are likely to further exacerbate the challenges of worklessness and inequality.

After a few decades in which scientific and technology progress in Artifical Intelligence (AI) made relatively little impact on the wider world, in the last few years the exponential growth of data and the computer processing power to manipulate it have led to some striking accomplishments by “machine learning”, a particular type of AI technology.

Whilst Machine Learning works in a very different way to our own intelligence, and whilst the Artificial Intelligence experts I’ve spoken to believe that any technological equivalent to human intelligence is between 20 and 100 years away (if it ever comes at all), one thing that is obvious is that Machine Learning technologies have already started to automate jobs that previously required human knowledge. Some studies predict that nearly half of all jobs – including those in highly-skilled, highly-paid occupations such as medicine, the law and journalism- could be replaced over the next few decades.

(Population changes in Blackburn, Burnley and Preston from 1901-2001. In the early part of the century, all three cities grew, supported by successful manufacturing economies. But in the latter half, only Preston continued to grow as it transitioned successfully to a service economy. From Cities Outlook 1901 by Centre for Cities)


(Population changes in Blackburn, Burnley and Preston from 1901-2001. In the early part of the century, all three cities grew, supported by successful manufacturing economies. But in the latter half, only Preston continued to grow as it transitioned successfully to a service economy. If cities do not adapt to changes in the economy driven by technology, history shows that they fail. From “Cities Outlook 1901” by Centre for Cities)

Über is perhaps the clearest embodiment of these trends combined. Whilst several cities and countries have compelled the company to treat their drivers as employees and offer improved terms and conditions, their strategy is unapologetically to replace their drivers with autonomous vehicles anyway.

I’m personally convinced that what we’re experiencing through these changes – and what we’ve possibly been experiencing for 50 years or more – is properly understood to be an Information Revolution that will reshape our world every bit as significantly as the Industrial Revolution.

And history shows us we should take the economic and social consequences of that very seriously indeed.

In the last Century as automated equipment replaced factory workers, many cities in the UK such as Sunderland, Birmingham and Bradford, saw severe job losses, economic depression and social challenges as they failed to adapt from a manufacturing economy to new industries based on knowledge-working.

In this Century many knowledge-worker jobs will be automated too, and unless we knowingly and successfully manage this huge transition into an economy based on jobs we can’t yet predict, the social and economic consequences – the crisis that has already begun – will be just as bad, or perhaps even worse.

So if the problem is the lack of opportunity, what’s the answer?

If trickle-down economics doesn’t work, top-down public sector schemes of improvement won’t work either – they’ve been tried again and again without much improvement to those persistently, multiply-deprived areas:

“For three generations governments the world over have tried to order and control the evolution of cities through rigid, top-down action. They have failed. Masterplans lie unfulfilled, housing standards have declined, the environment is under threat and the urban poor have become poorer. Our cities are straining under the pressure of rapid population growth, rising inequality, inadequate infrastructure, and failing systems of urban planning, design and development.”

– from “The Radical Incrementalist” by Kelvin Campbell, summarised here.

One of the most forward-looking UK local authority Chief Executives said to me recently that the problem isn’t that a culture of dependency on benefits exists in deprived communities; it’s that a culture of doing things for and to people, rather than finding ways to support them succeeding for themselves, permeates local government.

This subset of findings from Sir Bob Kerslake’s report on Birmingham City Council reflects similar concerns:

  • “The council, members and officers, have too often failed to tackle difficult issues. They need to be more open about what the most important issues are and focus on addressing them;
  • Partnership working needs fixing. While there are some good partnerships, particularly operationally, many external partners feel the culture is dominant and over-controlling and that the council is complex, impenetrable and too narrowly focused on its own agenda;
  • The council needs to engage across the whole city, including the outer areas, and all the communities within it;
  • Regeneration must take place beyond the physical transformation of the city centre. There is a particularly urgent challenge in central and east Birmingham.”

One solution that’s being proposed to the challenges of inequality and the displacement of jobs by automation is the “Universal Basic Income” – an unconditional payment made by government to every citizen, regardless of income and employment status. The idea is that such a payment ensures a good enough standard of living for everyone, even if many people lose employment or see their salaries fall; or chose to work in less financially rewarding occupations that have strong social value – caring for others, for example. Several countries, including Finland, Canada and the Netherlands have already begun pilots of this idea.

I think it’s a terrible mistake for two reasons.

Firstly, the proposed level of income – about $1500 per month – isn’t at all sufficient to address the vast levels of inequality that our economy has created. Whilst it might allow a majority of people to live a basically comfortable life, why should we accept that a small elite should exist at such a phenomenally different level of technology-enabled wealth as to be reminiscent of a science fiction dystopia?

Andy McAfee and Erik Brynjofflsson best expressed the second problem with a Universal Basic Income by quoting Voltaire in “The Second Machine Age“:

“Work keeps at bay three great evils: boredom, vice, and need.”

A Universal Basic Income might address “need”, to a degree, but it will do nothing to address boredom and vice. Most people want to work because they want to be useful, they want their lives to make a difference and they want to feel fulfilled – this is the “self-actualisation” at the apex of Maslow’s Hierarchy of Needs. Surely enabling everyone to reach that condition should be our aspiration for society, not a subsidy that addresses only basic needs?

Our answer to these challenges should be an economy that properly rewards the application of effort, talent and courage to achieving the objectives that matter to us most; not one that rewards the amoral maximisation of profits for the owners of capital assets accompanied by a gesture of redistribution that’s just enough to prevent civil unrest.

(Maslow's

(Maslow’s “Hierarchy of Needs”)

Three questions that reveal the solution

There are three questions that I think define the way to answer these challenges in a way that neither the public, private nor third sectors have yet done.

The first is the question at the heart of the idea of a Smart City.

There are a million different definitions of a “Smart City”, but most of them are variations on the theme of “using digital technology to make cities better”. The most challenging part of that idea is not to do with how digital technology works, nor how it can be used in city systems; it is to do with how we pay for investments in technology to achieve outcomes that are social, economic and environmental – i.e. that don’t directly generate a financial return, which is usually why money is invested.

Of course, there are investment vehicles that translate achievement against social, economic or environmental objectives into a financial return – Social Impact Bonds and Climate Bonds, for example.

Using such vehicles to support the most interesting Smart City ideas can be challenging, however, due to the level of uncertainty in the outcomes that will be achieved. Many Smart City ideas provide people with information or services that allow them to make choices about the energy they use; how and when they travel; and the products and services they buy. The theory is that when given the option to improve their social, economic and environmental impact, people will chose to do so. But that’s only the theory; the extent to which people actually change their behaviour is notoriously unpredictable. That makes it very difficult to create an investment vehicle with a predictable level of return.

So the first key question that should be answered by any solution to the current crisis is:

  • QUESTION 1: How can we manage the risk of investing in technology to achieve uncertain social, economic or environmental aims such as improving educational attainment or social mobility in our most deprived areas?

The international Smart City community (of which I am a part) has so far utterly failed to answer that question. In the 20 years that the idea has been around, it simply hasn’t made a noticeable difference to economic opportunity, social mobility or resilience – if it had, I wouldn’t be writing this article about a crisis. Earlier this year, I described the examples of Smart City initiatives around the world that are finally starting to make an impact, and below I’ll describe some actions we can take to replicate them and drive them forward at scale.

The second question is inspired by the work of the architect and town planner Kelvin Campbell, whose “Smart Urbanism” is challenging the decades of orthodox thinking that has failed to improve those most deprived areas of our cities:

The solution lies in mobilising peoples’ latent creativity by harnessing the collective power of many small ideas and actions. This happens whenever people take control over the places they live in, adapting them to their needs and creating environments that are capable of adapting to future change. When many people do this, it adds up to a fundamental shift. This is what we call making Massive Small change.”

from “The Radical Incrementalist” by Kelvin Campbell, summarised here.

Kelvin’s concept of “Massive Small change” forms the second key question that defines the solution to our crisis:

  • QUESTION 2: What are the characteristics of urban environments and policy that give rise to massive amounts of small-scale innovation?

That’s one of the most thought-provoking and insightful questions I can think of. “Small-scale” innovation is what everybody does, every day, as we try to get by in life: fixing a leaky tap, helping our daughter with her maths homework, closing that next deal at work, losing another kilogram towards our weight target, becoming a trustee of a local charity … and so on.

For some people, what begin as small-scale innovations eventually amount to tremendously successful lives and careers. Mark Zuckerberg learned how to code, developed an online platform for friends to stay in touch with each other, and became the 6th richest man on the planet, worth approximately $40 billion. On the other hand, 15 million people around the world, including a vast number of children, show their resourcefulness by searching refuse dumps for re-usable objects.

Recent research on the platform economy by the not-for-profit PEW Research Centre confirms these vast gaps in opportunity; and most concerningly identifies clear biases based on race, class, wealth and gender.

The problem with small-scale innovation doesn’t lie in making it happen – it happens all the time. The problem lies in enabling it to have a bigger impact for those in the most challenging circumstances. Kelvin’s work has found ways to do that in the built environment; how do we translate those ideas into the digital economy?

The final question is more subtle:

  • QUESTION 3: How do we ensure that massive amounts of small-scale innovation create collective societal benefits, rather than lots of individual successes?

One way to explain what I mean by the difference between widespread individual success and societal success is in terms of resilience. Over the next 35 years, about 2 billion more people worldwide will acquire the level of wealth associated with the middle classes of developed economies. As a consequence, they are likely to dramatically increase their consumption of resources – eating more meat and less vegetables; buying cars; using more energy. Given that we are already consuming our planet’s resources at an unsustainable rate, such an increase in consumption could great an enormous global problem. So our concept of “success” should be collective as well as individual – it should result in us moderating our personal consumption in favour of a sustainable society.

One of the central tenets of economics for nearly 200 years, the “Tragedy of the Commons“, asserts that individual motives will always overwhelm societal motives and lead to the exhaustion of shared resources, unless those resoures are controlled by a system of private ownership or by government regulation – unless some people or organisations are able to own and control the use of resources by others. We’ll return to this subject shortly, and to its study in the field of Evolutionary Social Biology.

Calling out the failure of the free market: a Three Step Manifesto for Smart Community Economies

If we could answer those three questions, we’d have defined a digital economy in which individual citizens, businesses and communities everywhere would have the skills, opportunities and resources to create their own success on terms that matter to them; and in a way that was beneficial to us all.

That’s the only answer to our current crisis that makes sense to me. It’s not an answer that either Brexit or Donald Trump will help us to find.

So how do we find it?

(The White Horse Tavern in Greenwich Village, New York, one of the city’s oldest taverns. The rich urban life of the Village was described by one of the Taverns’ many famous patrons, the urbanist Jane Jacobs. Photo by Steve Minor).

I think the answers are at our fingertips. In one sense, they’re no more than “nudges” that influence what’s happening already; and they’re supported by robust research in technology, economics, social science, biology and urban design. They lay out a three step manifesto for successful community economies, enabled by technology and rooted in place.

But in another sense, this is a call for fundamental change. These “nudges” will only work if they are enacted as policies, regulations and laws by national and local governments. “Regulation” is a dirty word to the proponents of free markets; but free markets are failing us, and it’s time we admitted that, and shaped them to our needs.

A global-local economy

Globalisation is inevitable – and in many ways beneficial; but ironically the same technologies that enable it can also enable localism, and the two trends do not need to be mutually exclusive.

Many urban designers and environmental experts believe that the best path to a healthy, successful, sustainable and equitable future economy and society lies in a combination of medium density cities with a significant proportion of economic activity (from food to manufacturing to energy to re-use and recycling) based on local transactions supported by walking and cycling.

The same “platform” business models employed by Über, Airbnb and so on could in theory provide the new transaction infrastructure to stimulate and enable such economies. In fact, I believe that they are unique in their ability to do so. Examples already exist – “Borroclub“, for instance, whose platform business connects people who need tools to do jobs with near neighbours who own tools but aren’t using them at the time. A community that adopts Borroclub spends less money on tools; exchanges the money it does spend locally rather than paying it to importers; accomplishes more work using fewer resources; and undertakes fewer car journeys to out-of-town DIY stores.

This can only be accomplished using social digital technology that allows us to easily and cheaply share information with hundreds or thousands of neighbours about what we have and what we need. It could never have happened using telephones or the postal system – the communication technologies of the pre-internet age.

This could be a tremendously powerful way to address the crisis we are facing. Businesses using this model could create jobs, reinforce local social value, reduce the transport and environmental impact of economic transactions and promote the sustainable use of resources; all whilst tapping into the private sector investment that supports growing businesses.

But private sector businesses will only drive social outcomes at scale if we shape the markets they operate in to make that the most profitable business agenda to pursue. The fact that we haven’t shaped the market yet is why platform businesses are currently driving inequality.

There are three measures we could take to shape the market; and the best news is that the first one is already being taken.

1. Legislate to encourage and support social innovation with Open Data and Open Technology

The Director of one of the UK’s first incubators for technology start-up businesses recently told me that “20 years ago, the only way we could help someone to start a business was to help them write a better business plan in order to have a better chance of getting a bank loan. Today there are any number of ways to start a business, and lots of them don’t need you to have much money.”

Technologies such as smartphones, social media, cloud computing and open source software have made it possible to launch global businesses and initiatives almost for free, in return for little more than an investment of time and a willingness to learn new skills. Small-scale innovation has never before had access to such free and powerful tools.

(The inspirational Kilimo Salama scheme that uses

(The inspirational Kilimo Salama scheme that uses “appropriate technology” to make crop insurance affordable to subsistence farmers. Photo by Burness Communications)

These are all examples of what was originally described as “Intermediate Technology” by the economist Ernst Friedrich “Fritz” Schumacher in his influential work, “Small is Beautiful: Economics as if People Mattered“, and is now known as Appropriate Technology.

Schumacher’s views on technology were informed by his belief that our approach to economics should be transformed “as if people mattered”. He asked:

“What happens if we create economics not on the basis of maximising the production of goods and the ability to acquire and consume them – which ends up valuing automation and profit – but on the Buddhist definition of the purpose of work: “to give a man a chance to utilise and develop his faculties; to enable him to overcome his ego-centredness by joining with other people in a common task; and to bring forth the goods and services needed for a becoming existence.”

Schumacher pointed out that the most advanced technologies, to which we often look to create value and growth, are in fact only effective in the hands of those with the resources and skills required to use them – i.e. those who are already wealthy. Further, by emphasising efficiency, output and profit those technologies tend to further concentrate economic value in the hands of the wealthy – often specifically by reducing the employment of people with less advanced skills and roles.

His writing seems prescient now.

A perfect current example is the UK Government’s strategy to drive economic growth by making the UK an international leader in autonomous vehicles, to counter the negative economic impacts of leaving the European Union. That strategy is based on further increasing the number of highly skilled technology and engineering jobs at companies and research insitutions already involved in the sector; and on the UK’s relative lack of regulations preventing the adoption of such technology on the country’s roads.

The strategy will benefit those people with the technological and engineering skills needed to create improvements in autonomous vehicle technology. But what will happen to the far greater number of people who earn their living simply by driving vehicles? They will first see their income fall, and second see their jobs disappear, as technology firstly replaces their permanent jobs with casual labour through platforms such as Über, and secondly completely removes their jobs from the economy by replacing them with self-driving technology. The UK economy might grow in the process; but vast numbers of ordinary people will see their jobs and incomes disappear or decline.

From the broad perspective of the UK workforce, that strategy would be great if we were making a massive investment in education to enable more people to earn a living as highly paid engineers rather than an average or low-paid living as drivers. But of course we’re not doing that at all; at best our educational spend per student is stagnant, and at worst it’s declining as class-sizes grow and we reduce the number of teaching assistants we employ.

In contrast, Schumacher felt that the most genuine “development ” of our society would occur when the most possible people were employed in a way that gave them the practical ability to earn a living; and that also offered a level of human reward – much as Maslow’s “Hierarchy of Needs” first identifies our most basic requirements for food, water, shelter and security; but next relates the importance of family, friends and “self-actualisation” (which can crudely be described as the process of achieving things that we care about).

This led him to ask:

“What is that we really require from the scientists and technologists? I should answer:

We need methods and equipment which are:

    • Cheap enough so that they are accessible to virtually everyone;
    • Suitable for small-scale application; and
    • Compatible with man’s need for creativity”

These are precisely the characteristics of the Cloud Computing, social media, Open Source and smartphone technologies that are now so widely available, and so astonishingly powerful. What we need to do next is to provide more support to help people everywhere put them to use for their own purposes.

Firstly, Open data, open algorithms and open APIs should be mandatory for any publicly funded service or infrastructure. They should be included in the procurement criteria for services and goods procured on behalf of the public sector. Our public infrastructure should be digitally open, accessible and accountable.

Secondly, some of the proceeds from corporate taxation – whether at national level or from local business rates – should be used to provide regional investment funds to support local businesses and social enterprises that contribute to local social, economic and environmental objectives; and to support the regional social innovation communities such as the network of Impact Hubs that help such initiatives start, succeed and grow.

But perhaps most importantly, those proceeds should also be used to fund improvements to state education everywhere. People can only use tools if they are given the opportunity to acquire skills; and as tools and technologies change, we need the opportunity to learn new skills. If our jobs – or more broadly our roles in society – are not ultimately to be replaced by machines, we need to develop the creativity to use those tools to create the human value that technology will never understand.

It is surely insane that we are pouring billions of pounds and dollars into the development of technologies that mean we need to develop new skills in order to remain employable, and that those investments are making our economy richer and richer; but that at the same time we are making a smaller and smaller proportion of that wealth available to educate our children.

Just as some of the profits of the Industrial Revolution were spent on infrastructure with a social purpose, so should some of the profits of the Information Revolution be.

2. Legislate to encourage and support business models with a positive social outcome

(Hancock Bank’s vault, damaged by Hurricane Katrina. Photo by Social Stratification)

The social quality of the behaviour of private sector businesses varies enormously.

The story of Hancock Bank’s actions to assist the citizens of New Orleans to recover from hurricane Katrina in 2005 – by lending cash to anyone who needed it and was prepared to sign an IoU – is told in this video, and is an extraordinary example of responsible business behaviour. In an unprecedented situation, the Bank’s leaders based their decisions on the company’s purpose, expressed in its charter, to support the communities of the city. This is in contrast to the behaviour of Bob Diamond, who resigned as CEO of Barclays Bank following the LIBOR rate-manipulation scandal, and who under questioning by parliamentary committee could not remember what the Bank’s founding principles, written by community-minded Quakers, stated.

Barclays’ employees’ behaviour under Bob Diamond was driven purely by the motivation to earn bigger bonuses by achieving the Bank’s primary objective, to increase shareholder value.

But the overriding focus on shareholders as the primary stakeholder in private sector business is relatively new. Historically, customers and employees have been treated as equally important. Some leading economists now believe we should return to such balanced models.

There are already models of business – such as “social enterprise” – which promote more balanced corporate governance, and that even offer accreditation schemes. We could incentivise such models to be more successful in our economy by creating a preferential market for them – lower rates of taxation; preferential scoring in public sector procurements; and so on.

An alternative is to use technology to enable entirely new, entirely open systems. “Blockchains” are the technology that enable the digital currency “Bitcoin“. The Bitcoin Blockchain is a single, distributed ledger that records every Bitcoin transaction so that anyone in the world can see it. So unlike the traditional system of money in which we depend on physical tokens, banks and payment services to define the ownership of money and to govern transactions, Bitcoin transactions work because everybody can see who owns which Bitcoins and when they’re being exchanged.

This principle of a “distributed, open ledger” – implemented by a blockchain – is thought by many technology industry observers to be the most important, powerfully disruptive invention since the internet. The Ethereum “smart contracts” platfom adds behaviour to the blockchain – open algorithms that cannot be tampered with and that dictate how transactions take place and what happens as a consequence of them. It is leading to some strikingly different new business models, including the “Distributed Autonomous Organisation” (or “DAO” for short), a multi-$million investment fund that is entirely, democratically run by smart contracts on behalf of its investors.

By promoting distributed, non-repudiatable transparency in this way, blockchain technologies offer unprecedented opportunities to ensure that all of the participants in an economic system have the opportunity to influence the distribution of the benefits of the system in a fair way. This idea is already at the heart of an array of initiatives to ensure that some of the least wealthy people in the world benefit more fairly from the information economy.

Finally, research in economics and in evolutionary social biology is yielding prescriptive insights into how we can design business models that are as wildly successful as those of Über and Airbnb, but with models of corporate governance that ensure that the wealth they create is more broadly and fairly distributed.

In conversation with a researcher at Imperial College London a few years ago, I said that I thought we needed to find criteria to distinguish “platform” businesses like Casserole Club that create social value from those like Über that concentrate the vast majority of the wealth they create in the hands of the platform owners. (Casserole Club uses social media to match people who are unable to provide meals for themselves with neighbours who are happy to cook and share an extra portion of their meal).

The researcher told me I should consult Elinor Ostrom’s work in Economics. Ostrom, who won the Nobel prize in 2009, spent her life working with communities around the world who successfully manage shared resources (land, forests, fresh water, fisheries etc.) sustainably, and writing down the common features of their organisational models. Her Nobel prize was awarded for using this evidence to disprove the “tragedy of the commons” doctrine which economists previously believed proved that sustainable commons management was impossible.

(Elinor Ostrom working with irrigation management in Nepal)

(Elinor Ostrom working with irrigation management in Nepal)

Most of Ostrom’s principles for organisational design and behaviour are strikingly similar to the models used by platform businesses such as Über and Airbnb. But the principles she discovered that are the most interesting are the ones that Über and Airbnb don’t follow – the price of exchange being agreed by all of the participants in a transaction, for example, rather than it being set by the platform owner. Ostrom’s work has been continued by David Sloan Wilson who has demonstrated that the principles she discovered follow from evolutionary social biology – the science that studies the evolution of human social behaviour.

Elinor Ostrom’s design principles for commons organisations offer us not only a toolkit for the design of successful, socially responsible platform businesses; they offer us a toolkit for their regulation, too, by specifying the characteristics of businesses that we should preferentially reward through market regulation and tax policy.

3. Legislate for individual ownership of personal data, and a right to share in the profits it creates. 

Platform business models may depend less and less on our labour – or at least, may have found ways to pay less for it as a proportion of their profits; but they depend absolutely on our data.

Of course, we – usually – get some value in return for our data – useful search results, guidance to the quickest route to our journey, recommendations of new songs, films or books we might like.

But is massive inequality really a price worth paying for convenience?

The ownership of private property and intellectual property underpin the capitalist economy, which until recently was primarily based on the value of physical assets and closed knowledge, made difficult to replicate through being stored primarily in physical, analogue media (including our brains).

Our economy is now being utterly transformed by easy to replicate, easy to transfer digital data – from news to music to video entertainment to financial services, business models that had operated for decades have been swept away and replaced by models that are constantly adapting, driven by advances in technology.

But data legislation has not kept pace. Despite several revisions of data protection and privacy legislation, the ownership of digital data is far from clearly defined in law, and in general its exchange is subject to individual agreements between parties.

It is time to legislate more strongly that the value of the data we create by our actions, our movement and our communication belongs to us as individuals, and that in turn we receive a greater share of the profits that are made from its use.

That is the more likely mechanism to result in the fair distribution of value in the economy as the value of labour falls than a Universal Basic Income that rewards nothing.

One last plea to our political leaders to admit that we face a crisis

Whilst the UK and the USA argue – and even riot – about the outcomes of the European Union referendum and the US Presidential election, the issues of inequality, loss of jobs and disenfranchisement from the political system are finally coming to light in the media.

But it’s a disgrace that they barely featured at all in either of those campaigns.

Emotionally right now I want to castigate our politicians for getting us into this mess through all sorts of venality, complacency, hubris and untruthfulness. But two things I know they are not – including Donald Trump – are stupid or ignorant. They surely must be aware of these issues – why will they not recognise and address them?

Robert Wright’s mathematical analysis of the evolution of human society, NonZero, describes the emergence of our current model of nation states through the European Middle Ages as a tension between the ruling and working classes. The working classes pay a tax to the ruling classes, who they accept will live a wealthier life, in return for a safe and peaceful environment in which to live. Whenever the price paid for safety and peace grew unreasonably high, the working classes revolted and overthrew the ruling classes, resulting eventually in a new, better-balanced model.

Is it scaremongering to suggest we are close to a similar era of instability?

(Anti-Donald Trump protesters in San Jose, California in June. Trump supporters leaving a nearby campaign rally were attacked)

(Anti-Donald Trump protesters in San Jose, California in June. Trump supporters leaving a nearby campaign rally were attacked)

I don’t think so. At the same time that the Industrial Revolution created widespread economic growth and improvements in prosperity, it similarly exacerbated inequality between the general population and the property- and business-owning elite. Just as I have argued in this article, that inequality was corrected not by “big government” and grand top-down redistributive schemes, but by measures that shaped markets and investments in education and enablement for the wider population.

We have not yet taken those corrective actions for the Information Revolution – nor even realised and acknowledged that we need to take them. Inequality is rising as a consequence, and it is widely appreciated that inequality creates social unrest.

Brexit and the election of Donald Trump following a campaign of such obvious lies, misogyny and – at best – narrow-minded nationalism are unprecedented in modern times. They have already resulted in social unrest in the form of riots and increased incidents of racism – as has the rise in the price of staple food caused by severe climate events as a vast number of people around the world struggle to feed themselves when hurricanes and droughts affect the production of basic crops. It’s no surprise that the World Economic Forum’s 2016 Global Risks Report identifies “unemployment and underemployment” and “profound social instability” as amongst the top 10 most likely and impactful global risks facing the world.

Brexit and Donald Trump are not crises in themselves; but they are symptoms of a real crisis that we face now; and until we – and our political leaders – face up to that and start dealing with it properly, we are putting ourselves, our future and our childrens’ future at unimaginable risk.

Thankyou to the following, whose opinions and expertise, expressed in articles and conversations, helped me to write this post:

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Why Smart Cities still aren’t working for us after 20 years. And how we can fix them.

February 1, 2016 37 Comments

(The futuristic "Emerald City" in the 1939 film "The Wizard of Oz". The "wizard" who controls the city is a fraud who uses theatrical technology to disguise his lack of real power.)

(The futuristic “Emerald City” in the 1939 film “The Wizard of Oz“. The “wizard” who controls the city is a fraud who uses theatrical technology to disguise his lack of real power.)

(I was recently asked to give evidence to the United Nations Commission on Science and Technology for Development during the development of their report on Smart Cities and Infrastructure. This article is based on my presentation, which you can find here).

The idea of a “Smart City” (or town, or region, or community) is 20 years old now; but despite some high profile projects and a lot of attention, it has so far achieved relatively little.

The goal of a Smart City is to invest in technology in order to create economic, social and environmental improvements. That is an economic and political challenge, not a technology trend; and it is an imperative challenge because of the nature and extent of the risks we face as a society today. Whilst the demands created by urbanisation and growth in the global population threaten to outstrip the resources available to us, those resources are under threat from man-made climate change; and we live in a world in which many think that access to resources is becoming dangerously unfair.

Surely, then, there should be an urgent political debate concerning how city leaders and local authorities enact policies and other measures to steer investments in the most powerful tool we have ever created, digital technology, to address those threats?

In honesty, that debate is not really taking place. There are endless conferences and reports about Smart Cities, but very, very few of them tackle the issues of financing, investment and policy – they are more likely to describe the technology and engineering solutions behind schemes that appear to create new efficiencies and improvements in transport and energy systems, for example, but that in reality are unsustainable because they rely on one-off research and innovation grants.

Because Smart Cities are usually defined in these terms – by the role of technology in city systems rather than by the role of policy in shaping the outcomes of investment – the idea has not won widespread interest and support from the highest level of political leadership – the very people without whom the policy changes and investments that Smart Cities need will not be made.

And because Smart Cities are usually discussed as projects between technology providers, engineers, local authorities and universities, the ordinary people who vote for politicians, pay taxes, buy products, use public services and make businesses work are not even aware of the idea, let alone supportive of it.

("Visionary City" by William Robinson Leigh)

(William Robinson Leigh’s 1908 painting “Visionary City” envisaged future cities constructed from mile-long buildings of hundreds of stories connected by gas-lit skyways for trams, pedestrians and horse-drawn carriages. A century later we’re starting to realise not only that developments in transport and power technology have eclipsed Leigh’s vision, but that we don’t want to live in cities constructed from buildings on this scale.)

The fact that the Smart Cities movement confuses itself with inconsistent and contradictory definitions exacerbates this lack of engagement, understanding and support. From the earliest days, it has been defined in terms of either smart infrastructure or smart citizens; but rarely both at the same time.

For example, in “City of Bits” in 1996, William Mitchell, Director of the Smart Cities Research Group at MIT’s Media Lab, predicted the widespread deployment of digital technology to transform city infrastructures:

“… as the infobahn takes over a widening range of functions, the roles of inhabited structures and transportation systems are shifting once again, fresh urban patterns are forming, and we have the opportunity to rethink received ideas of what buildings and cities are, how they can be made, and what they are really for.”

Whilst in their paper “E-Governance and Smart Communities: A Social Learning Challenge“, published in the Social Science Computer Review in 2001, Amanda Coe, Gilles Paquet and Jeffrey Roy described the 1997 emergence of the idea of “Smart Communities” in which citizens and communities are given a stronger voice in their own governance by the power of internet communication technologies:

“A smart community is defined as a geographical area ranging in size from a neighbourhood to a multi-county region within which citizens, organizations and governing institutions deploy and embrace NICT [“New Information and Communication Technologies”] to transform their region in significant and fundamental ways (Eger 1997). In an information age, smart communities are intended to promote job growth, economic development and improve quality of life within the community.”

Because few descriptions of a Smart City reflect both of those perspectives in harmony, many Smart City discussions quickly create arguments between opposing camps rather than constructive ideas: infrastructure versus people; top-down versus bottom-up; technology versus urban design; proprietary technology versus open source; public service improvements versus the enablement of open innovation – and so on.

I haven’t seen many political leaders or the people who vote for them be impressed by proposals whose advocates are arguing with each other.

The emperor has no wearable technology … why we’re not really investing in Smart Cities

The consequence of this lack of cohesion and focus is that very little real money is being invested in Smart Cities to create the outcomes that cities, towns, regions and whole countries have set out for themselves in thousands of Smart City visions and strategies. The vast majority of Smart City initiatives to date are pilot projects funded by research and innovation grants. There are very, very few sustainable, repeatable solutions yet.

There are three reasons for this; and they will have serious economic and social consequences if we don’t address them.

Firstly, the investment streams available to most of those who are trying to shape Smart Cities initiatives – engineers, technologists, academics, local authority officers and community activists – are largely limited to corporate research and development funds, national and international innovation programmes and charitable or socially-focussed grants. Those are important sources of funding, but they are only available at a scale sufficient to prove that good new ideas can work through individual, time-limited projects. They are not intended to fund the deployment of those ideas across cities everywhere, or to construct new infrastructure at city scale, and they are not remotely capable of doing so.

(United States GDP plotted against median household income from 1953 to present. Until about 1980, growth in the economy correlated to increases in household wealth. But from 1980 onwards as digital technology has transformed the economy, household income has remained flat despite continuing economic growth)

(United States GDP plotted against median household income from 1953 to present. Until about 1980, growth in the economy correlated to increases in household wealth. But from 1980 onwards as digital technology has transformed the economy, household income has remained flat despite continuing economic growth. From “The Second Machine Age“, by MIT economists Andy McAfee and Erik Brynjolfsson, summarised in this article.)

Secondly and conversely, the massive investments that are being made in smart technology at a scale that is transforming our world are primarily commercial: they are investing in technology to develop new products and services that consumers want to buy. That’s guaranteed to create convenience for consumers and profit for companies; but it’s far from guaranteed to create resilient, socially mobile, vibrant and healthy cities. It’s just as likely to reduce our life expectancy and social engagement by making it easier to order high-fat, high-sugar takeaway food on our smartphones to be delivered to our couches by drones whilst we immerse ourselves in multiplayer virtual reality games.

That’s why whilst technology advocates praise the ingenuity of technology-enabled “sharing economy” business models such as Airbnb and Uber, most other commentators point out that far from being platforms for “sharing” many are simply profit-seeking transaction brokers. More fundamentally, some economists are seriously concerned that the economy is becoming dominated by such platform business models and that the majority of the value they create is captured by a small number of platform owners – world leaders discussed these issues at the World Economic Forum’s Davos summit this year. There is real evidence that the exploitation of technology by business is contributing to the evolution of the global economy in a way that makes it less equal and that concentrates an even greater share of wealth amongst a smaller number of people.

Finally, the similarly massive investments continually made in property development and infrastructure in cities are, for the most part, not creating investments in digital technology in the public interest. Sometimes that’s because there’s no incentive to do so: development investors make their returns by selling the property they construct; they often have no interest in whether the tenants of that property start successful digital businesses, and they receive no income from any connectivity services those tenants might use. In other cases, policy actively inhibits more socially-minded developers from providing digital services. One developer of a £1billion regeneration project told me that European Union restrictions on state aid had prevented them making any investment in connectivity. They could only build buildings without connectivity – in an area with no mobile coverage – and attempt to attract people and businesses to move in, thereby creating demand for telecommunications companies to subsequently compete to fulfil.

We’ll only build Smart Cities when we shape the market for investing in technology for city services and infrastructure

In her seminal 1961 work “The Death and Life of Great American Cities“, Jane Jacobs wrote that “Private investment shapes cities, but social ideas (and laws) shape private investment. First comes the image of what we want, then the machinery is adapted to turn out that image.”

Cities, towns, regions and countries around the world have set out their self-images of a Smart future, but we have not adapted the financial, regulatory and economic machinery – the policies, the procurement practises, the development frameworks, the investment models – to incentivise the private sector to create them.

I do not mean to be critical of the private sector in this article. I have worked in the private sector for my entire career. It is the engine of our economy, and without its profits we would not create the jobs needed by a growing global population, or the means to pay the taxes that sustain our public services, or the surplus wealth that creates an ability to invest in our future.

But one of the fallacies of large parts of the Smart Cities movement, and of a significant part of the overall debate concerning the enormous growth in value of the technology economy, is the assumption that economic growth driven by private sector investments in technology to improve business performance will create broad social, economic and environmental benefits.

There is no guarantee that it will. Outside philanthropy, charitable donations and social business models, private sector investments are made in order to make a profit, period. In doing so, social, economic and environmental benefits may also be created, but they are side effects which, at best, result from the informed investment choices of conscientious business leaders. At worst, they are simply irrelevant to the imperative of the profit motive.

Some businesses have the scale, vision and stability to make more direct links in their strategies and decision-making to the dependency between their success as businesses and the health of the society in which they operate – Unilever is a notable and high profile example. And all businesses are run by real people whose consciences influence their business decisions (with unfortunate exceptions, of course).

But those examples do not in any way add up to the alignment of private sector investment objectives with the aspirations of city authorities or citizens for their future. And as MIT economists Andy McAfee and Erik Brynjolfsson, amongst others, have shown, most current evidence indicates that the technology economy is exacerbating the inequality that exists in our society (see graph above). That is the opposite of the future aspirations expressed by many cities, communities and their governments.

This leads us to the political and economic imperative represented by the Smart Cities movement: to adapt the machinery of our economy to influence investments in technology so that they contribute to the social, economic and environmental outcomes that we want.

A leadership imperative to learn from the past

Those actions can only be taken by political leaders; and they must be taken because without them developments and investments in new technology and infrastructure will not create ubiquitously beneficial outcomes. Historically, there is plenty of evidence that investments in technology and infrastructure can create great harm if market forces alone are left to shape them.

(Areas of relative wealth and deprivation in Birmingham as measured by the Indices of Multiple Deprivation. Birmingham, like many of the UK's Core Cities, has a ring of persistently deprived areas immediately outside the city centre, co-located with the highest concentration of transport infrastructure allowing traffic to flow in and out of the centre.)

(Areas of relative wealth and deprivation in Birmingham as measured by the Indices of Multiple Deprivation. Birmingham, like many of the UK’s Core Cities, has a ring of persistently deprived areas immediately outside the city centre, co-located with the highest concentration of transport infrastructure allowing traffic to flow in and out of the centre)

For example, in the decades after the Second World War, cities in developed countries rebuilt themselves using the technologies of the time – concrete and the internal combustion engine. Networks of urban highways were built into city centres in the interests of connecting city economies with national and international transport links to commerce.

Those infrastructures supported economic growth; but they did not provide access to the communities they passed through.

The 2015 Indices of Multiple Deprivation in the UK demonstrate that some of those communities were greatly harmed as a result. The indices identify neighbourhoods with combinations of low levels of employment and income; poor health; poor access to quality education and training; high levels of crime; poor quality living environments and shortages of quality housing and services. An analysis of these areas in the UK’s Core Cities (the eight economically largest cities outside London, plus Glasgow and Cardiff) show that many of them exist in rings surrounding relatively thriving city centres. Whilst clearly the full causes are complex, it is no surprise that those rings feature a concentration of transport infrastructure passing through them, but primarily serving the interests of those passing in and out of the centre. (And this is without taking into account the full health impacts of transport-related pollution, which we’re only just starting to appreciate).

Similar effects can be seen historically. In their report “Cities Outlook 1901“, Centre for Cities explored the previous century of urban development in the UK, examining why at various times some cities thrived and some did not. They concluded that the single most important influence on the success of cities was their ability to provide their citizens with the right skills and opportunities to find employment, as the skills required in the economy changed as technology evolved. (See the sample graph below). A recent short article in The Economist magazine similarly argued that history shows there is no inevitable mechanism that ensures that the benefits of economic growth driven by technology-enabled productivity improvements are broadly distributed. It cites huge investments made in the US education system in the late 19th and early 20th Centuries to ensure that the general population was in a position to benefit from the technological developments of the Industrial Revolution as an example of the efforts that may need to be made.

Why smart cities are a political leadership challenge

So, to summarise the arguments I’ve made so far:

From global urbanisation and population growth to man-made climate change we are facing some of the most serious and acute challenges in our history, as well as the persistent challenge of inequality. But the most powerful tool that is shaping a transformation of our society and economy, digital technology, is, for the most part, not being used to address those challenges. The vast majority of investments in it are being made simply in the interests of profitable returns. Our political leaders are not shaping the markets in which those investment are made, or influencing public sector procurement practises, in order to create broader social, economic and environmental outcomes.

So what can we do about that?

We need to persuade political leaders to act – the leaders of cities; of local authorities more generally; and national politicians. I’m trying to do that using the arguments set out in this article, approaching “Smart Cities” not as a technology initiative but as a political and economic issue made urgent by imperative challenges to society.

I can imagine three arguments against that proposition, which I’d like to tackle first, before going on to talk about the actions that we need those leaders to take.

(Population changes in Blackburn, Burnley and Preston from 1901-2001. In the early part of the century, all three cities grew, supported by successful manufacturing economies. But in the latter half, only Preston continued to grow as it transitioned successfully to a service economy. From Cities Outlook 1901 by Centre for Cities)


(Population changes in Blackburn, Burnley and Preston from 1901-2001. In the early part of the century, all three cities grew, supported by successful manufacturing economies. But in the latter half, only Preston continued to grow as it transitioned successfully to a service economy. If cities do not adapt to changes in the economy driven by technology, history shows that they fail. From “Cities Outlook 1901” by Centre for Cities)

The first argument is: why focus on cities? What about the rest of the world, and in particular the challenges of smaller towns, which are often overlooked; or rural regions, which are distinctive and deserve focus in their own right?

There are two replies to this argument. The first is that cities do represent the most sizeable challenge. Since 2010, more than half the world’s population has lived in urban areas, and that’s expected to rise to 70% by 2050. Cities drive the majority of the world’s economy, consume the majority of resources in the most concentrated way and create the majority of the pollution driving climate change. By focussing on cities we focus on most of our challenges at the same time, and in the places where they are most concentrated; and we focus on a unit of governance that is able to act decisively and with understanding of local context.

And that brings us to the second reply: most of the arguments I make in this article aren’t really about cities, they’re about the need for the leaders of local governments – cities, towns and regions – to take action. That applies to any local authority, not just to cities.

The second counter-argument is that my proposal is “top-down” and that instead we should focus on the “bottom-up” creativity that is the richest source of innovation and of practical solutions to problems that are rooted in local context.

My answer to this challenge is that I agree completely that it is bottom-up innovation that will create the majority of the answers to our challenges. But bottom-up innovation is already happening everywhere around us – it is what everyone does every day to create a better business, a better community, a better life. The problem with bottom-up innovation doesn’t lie in making it happen; it lies in enabling it to have a bigger impact. If bottom-up innovation on its own were the answer, then we wouldn’t have the staggering and increasing levels of inequality that we see today, and the economic growth created by the information revolution would be more broadly distributed.

Ultimately, it’s not the bottom-up innovators who need persuading to take action: they’re already acting. It’s the top-down leaders and policy-makers who are not doing what we need them to do: setting the policies that will influence investments in digital technology infrastructure to create better opportunities and support for citizen-led, community-led and business-led innovation. That’s why I’m focussing this article on those leaders and the actions we need them to take.

The third argument works similarly to the second argument, and it’s that we should be focussing on people, not on technology and policy.

Yes, of course we should be focussing on people: their creativity, the detail of their daily lives, and the outcomes that matter to them. But two central points to my argument are that digital technology is a new and revolutionary force reshaping our world, our society and our economy; and that the benefits of that revolution are not being equitably distributed. The main thing that’s not working for people right now is the impact of digital technology on society, and the main reason for that is the lack of action by political leaders. So that’s what we should concentrate on fixing.

Finally, I can summarise my response to all of those arguments in a simple statement: first we have to persuade political leaders to act, because many of them are not acting on these issues at the moment; and then we have to persuade them to act in the right way – to support bottom-up innovation through investment in open technology infrastructures and to put the interests of people at the heart of the policies that drive and shape that investment.

(Innovation Birmingham's £7m "iCentrum" facility will open in March 2016. It will small companies developing smart city products and services will have the opportunity to co-develop them with larger organisations such as RWE nPower, the Transport Systems Catapult and Centro (Birmingham’s Public Transport Executive) – see, e.g., https://ts.catapult.org.uk/-/centro-and-the-transport-systems-catapult-to-run-intelligent-mobility-incubator-within-innovation-birmingham-s-8m-icentrum-buildi-1 )

(Innovation Birmingham’s Chief Executive David Hardman describes the £7m “iCentrum” facility which will open in March 2016 to local stakeholders. It will offer entrepreneurial companies opportunities to co-develop smart city products and services with larger organisations such as RWE nPower, the Transport Systems Catapult and Centro, Birmingham’s Public Transport Executive)

Learning from what’s worked

This might all sound rather negative so far; and in a sense that’s intentional because I want to be very clear in my message that I do not think we are doing enough.

But I have a positive message too: if we can persuade our political leaders to act, then it’s increasingly clear what we need them to do. Whilst the majority of “Smart City” initiatives are unsustainable pilot and innovation projects, that’s not true of them all.

In the UK, from Sunderland to London to Newcastle to Birmingham there are examples of initiatives that are supported by sustainable funding sources and investment streams; that are not dependent on research and development grants from national or international innovation funds or technology companies; and that essentially could be applied by any city or community.

I summarised these repeatable models recently in the article “4 ways to get on with building Smart Cities. And the societal failure that stops us using them“:

1. Include Smart City criteria in the procurement of services by local authorities to encourage competitive innovation from private sector providers. Whilst local authority budgets are under pressure around the world, and have certainly suffered enormous cuts in the UK, local authorities nevertheless spend up to billions of pounds sterling annually on goods, services and staff time. The majority of procurements that direct that spending still procure traditional goods and services through traditional criteria and contracts. By contrast, Sunderland, a UK city, and Norfolk, a UK county, have shown that by emphasising city and regional aspirations in procurement scoring criteria it is possible to incentivise suppliers to invest in smart solutions that contribute to local objectives.

2. Encourage development opportunities to include “smart” infrastructure. Investors invest in infrastructure and property development because it creates returns for them – to the tune of billions of pounds sterling annually in the UK. Those investments are already made in the context of regulations – planning frameworks, building codes and energy performance criteria, for example. Those regulations can be adapted to demand that investments in property and physical infrastructure include investment in digital infrastructure in a way that contributes to local authority and community objectives. The East Wick and Sweetwater development in London – a multi-£100million development that is part of the 2012 Olympics legacy and that is financed by a pension fund investment – was awarded to it’s developer based in part on their commitments to invest in this way.

3. Commit to entrepreneurial programmes. There are many examples of new urban or public services being delivered by entrepreneurial organisations who develop new business and operating models enabled by technology – I’ve already cited Uber and Airbnb as examples that contribute to traveller convenience; Casserole Club, a service that uses social media to connect people who can’t provide their own food with neighbours who are happy to cook an extra portion of a meal for someone else, is an example that has more obviously social benefits. Many cities have local investment funds and support services for entrepreneurial businesses, and Sunderland’s Software Centre, Birmingham’s iCentrum development, Sheffield’s Smart Lab and London’s Cognicity accelerator are examples where those investments have been linked to local smart city objectives.

4. Enable and support Social Enterprise. The objectives of Smart Cities are analogous to the “triple bottom line” objectives of Social Enterprises – organisations whose finances are sustained by revenues from the products or services that they provide, but that commit themselves to social, environmental or economic outcomes, rather than to maximising their financial returns to shareholders. A vast number of Smart City initiatives are carried out by these organisations when they innovate using technology. Cities that find a way to systematically enable social enterprises to succeed could unlock a reservoir of beneficial innovation, as the Impact Hub network, a global community of collaborative workspaces, has shown.

How to lead a smart city: Commitment, Collaboration, Consistency and Community

Each of the approaches I’ve described is dependent on both political leadership from a local authority and collaboration with regional stakeholders – businesses, developers, Universities, community groups and so on.

So the first task for political leaders who wish to drive an effective Smart City programme is to facilitate the co-creation of regional consensus and an action plan (I’m not going to use the word “roadmap”. My experience of Smart Cities roadmaps is that they are, as the name implies, passive documents that don’t go anywhere).

I can sum up how to do that effectively using “four C’s”: Commitment, Collaboration, Consistency and Community:

Commitment: a successful approach to a Smart City or community needs the commitment, leadership and active engagement of the most senior local government leaders. Of course, elected Mayors, Council Leaders and Chief Executives are busy people with a multitude of responsibilities and they inevitably delegate; but this is a responsibility that cannot be delegated too far. The vast majority of local authorities that I have seen pursue this agenda with tangible results – through whichever approach, even those authorities who have been successful funding their initiatives through research and innovation grants – have appointed a dedicated Executive officer reporting directly to the Chief Executive and with a clear mandate to create, communicate and drive a collaborative smart strategy and programme.

Collaboration: a collaborative, empowered regional stakeholder forum is needed to convene local resources. Whilst a local authority is the only elected body with a mandate to set regional objectives, local authorities directly control only a fraction of regional resources, and do not directly set many local priorities. Most approaches to Smart Cities require coordinated activity by a variety of local organisations. That only comes about if those organisations decide to collaborate at the most senior level, mutually agree their objectives for doing so, and meet regularly to agree actions to achieve them. The local authority’s elected mandate usually makes it the most appropriate organisation to facilitate the formation and chair the proceedings of such fora; but it cannot direct them.

Consistency: in order to collaborate, regional stakeholders need to agree a clear, consistent, specific local vision for their future. Without that, they will lack a context in which to take decisions that reconcile their individual interests with shared regional objectives; and any bids for funding and investments they make, whether individually or jointly, will appear inconsistent and unconvincing.

Community: finally, the only people who really know what a smart city should look like are the citizens, taxpayers, voters, customers, business owners and employees who form its community; who will live and work in it; and who will ultimately pay for it through their taxes. It’s their bottom-up innovation that will give rise to the most meaningful and effective initiatives. Their voice – heard through events, consultation exercises, town hall meetings, social media and so on – should lead to the visions and policies to create an environment in which they can flourish.

(Birmingham's newly opened city centre trams are an example of a reversal of 20th century trends that prioritised car traffic over the public transport systems that we have realised are so important to healthy cities)

(Birmingham’s newly opened city centre trams are an example of a reversal of 20th century trends that prioritised car traffic over the public transport systems that we have re-discovered to be so important to healthy cities)

Beyond “top-down” versus “bottom-up”: Translational Leadership and Smart Digital Urbanism

Having established that there’s a challenge worth facing, argued that we need political leaders to take action to address it, and explored what that action should be, I’d like finally to return to one of the arguments I explored along the way.

Action by political leaders is, almost by definition, “top-down”; and, whilst I stand by my argument that it’s the most important missing element of the majority of smart cities initiatives today, it’s vitally important that those top-down actions are taken in such a way as to encourage, enable and empower “bottom-up” innovation by the people, communities and businesses from which real cities are made.

It’s not only important that our leaders take the actions that I’ve argued for; it’s important that they act in the right way. Smart cities are not “business as usual”; and they are also not “behaviour as usual”.

The smart cities initiatives that I have been part of or had the privilege to observe, and that have delivered meaningful outcomes, have taken me on a personal journey. They have involved meeting with, listening to and working with people, organisations and communities that I would not have previously expected to be part of my working life, and that I was not previously familiar with in my personal life – from social enterprises to community groups to individual people with unusual ideas.

Writing in “Resilience: Why Things Bounce Back”, Andrew Zolli observes that the leaders of initiatives that have created real, lasting and surprising change in communities around the world show a quality that he defines as “Translational Leadership“. Translational leaders have the ability to overcome the institutional and cultural barriers to engagement and collaboration between small-scale, informal innovators in communities and large-scale, formal institutions with resources. This is precisely the ability that any leaders involved in smart cities need in order to properly understand how the powerful “top-down” forces within their influence – policies, procurements and investments – can be adapted to empower and enable real people, real communities and real businesses.

Translational leaders understand that their role is not to direct change, but to create the conditions in which others can be successful.

We can learn how to create those conditions from the decades of experience that town planners and urban designers have acquired in creating “human-scale cities” that don’t repeat the mistakes that were made in constructing vast urban highways, tower blocks and housing projects from unforgiving concrete in the past century.

And there is good precedent to do so. It is not just that the experience of town planners and urban designers leads us unmistakably to design thinking that focusses on the needs of the millions of individual citizens whose daily experiences collectively create the behaviour of cities. That is surely the only approach that will succeed; and the designers of smart city technologies and infrastructures will fail unless they take it. But there is also a long-lasting and profound relationship between the design techniques of town planners and of software engineers. The basic architectures of the internet and mobile applications we use today were designed using those techniques in the last decade of the last millennium and the first decade of this one.

The architect Kelvin Campbell’s concept of “massive/small smart urbanism” can teach us how to join the effects of “top-down” investments and policy with the capacity for “bottom-up” innovation that exists in people, businesses and communities everywhere. In the information age, we create the capacity for “massive amounts of small-scale innovation” if digital infrastructures are accessible and adaptable through the provision of open data interfaces, and accessible from open source software on cloud computing platforms – the digital equivalent of accessible public space and human-scale, mixed-used urban environments.

I call this “Smart Digital Urbanism”, and many of its principles are already apparent because their value has been demonstrated time and again. These principles should be the starting point for adapting planning frameworks, procurement practises and the other policies that influence spending and investment in cities and public services.

Re-stating what Smart Cities are all about

Defining and re-defining the “Smart City” is a hoary old business – as I pointed out at the start of this article, we’ve been at it for 20 years now, and without much success.

But definitions are important: saying what you mean to do is an important first step in acting successfully, particularly in a collaborative, public context.

So I’ll end this article by offering another attempt to sum up a smart city – or community – in a way that emphasises what I know from experience are the important factors that will lead to successful actions and outcomes, rather than the endless rounds of debate that we can’t allow to continue any longer:

A Smart City or community is one which successfully harnesses the most powerful tool of our age – digital technology – to create opportunities for its citizens; to address the most severe acute challenges the human race has ever faced, arising from global urbanisation and population growth and man-made climate change; and to address the persistent challenge of social and economic inequality. The policies and investments needed to do this demand the highest level of political leadership at a local level where regional challenges and resources are best understood, and particularly in cities where they are most concentrated. Those policies and investments will only be successful if they are enabling, not directing; if they result from the actions of leaders who are listening and responding to the people and communities they serve; and if they shape an urban environment and digital economy in which individual citizens, businesses and communities have the skills, opportunities and resources to create their own success on their own terms.

That’s not a snappy definition; but I hope it’s a useful definition that’s inclusive of the major issues and clearly points out the actions that are required by city, political, community and business leaders … and why it’s vitally important that we finally start taking them.

 

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Intelligent Transport Systems need to get wiser … or transport will keep on killing us

November 2, 2015 3 Comments

(The 2nd Futurama exhibition at the 1964 New York World’s Fair displayed a vision for the future that in many ways reflected the concrete highways and highrises constructed at the time. We now recognise that the environments those structures created often failed to support healthy personal and community life. In 50 years’ time, how will we perceive today’s visions of Intelligent Transport Systems? Photo by James Vaughan)

Two weeks ago the Transport Systems Catapult published a “Traveller Needs and UK Capability Study”, which it called “the UK’s largest traveller experience study” – a survey of 10,000 people and their travelling needs and habits, complemented by interviews with 100 industry experts and companies. The survey identifies a variety of opportunities for UK innovators in academia and industry to exploit the predicted £56 billion market for intelligent mobility solutions in the UK by 2025, and £900 billion market worldwide. It is rightly optimistic that the UK can be a world leader in those markets.

This is a great example of the enormous value that the Catapult programme – inspired by Germany’s Fraunhofer Institutes – can play in transferring innovation and expertise out of University research and into the commercial economy, and in enabling the UK’s expert small businesses to reach opportunities in international markets.

But it’s also a great example of failing to connect the ideas of Intelligent Transport with their full impact on society.

I don’t think we should call any transport initiative “intelligent” unless it addresses both the full relationship between the physical mobility of people and goods with social mobility; and the significant social impact of transport infrastructure – which goes far beyond issues of congestion and pollution.

The new study not only fails to address these topics, it doesn’t mention them at all. In that light, such a significant report represents a failure to meet the Catapult’s own mission statement, which incorporates a focus on “wellbeing” – as quoted in the introduction to the report:

“We exist to drive UK global leadership in Intelligent Mobility, promoting sustained economic growth and wellbeing, through integrated, efficient and sustainable transport systems.” [My emphasis]

I’m surprised by this failing in the study as both the engineering consultancy Arup and the Future Cities Catapult – two organisations that have worked extensively to promote human-scale, walkable urban environments and human-centric technology – were involved in its production; as was at least one social scientist (although the experts consulted were otherwise predominantly from the engineering, transport and technology industries or associated research disciplines).

I note also that the list of reports reviewed for the study does not include a single work on urbanism. Jane Jacobs’ “The Death and Life of Great American Cities”, Jan Gehl’s “Cities for People“, Jeff Speck’s “Walkable City” and Charles Montgomery’s “The Happy City“, for example, all describe very well the way that transport infrastructures and traffic affect the communities in which most of the world’s population lives. That perspective is sorely lacking in this report.

Transport is a balance between life and death. Intelligent transport shouldn’t forget that.

These omissions matter greatly because they are not just lost areas of opportunity for the UK economy to develop solutions (although that’s certainly what they are). More importantly, transport systems that are designed without taking their full social impact into account have the most serious social consequences – they contribute directly to deprivation, economic stagnation, a lack of social mobility, poor health, premature deaths, injuries and fatalities.

As town planner Jeff Speck and urban consultant Charles Montgomery recently described at length in “Walkable City” and “The Happy City” respectively, the most vibrant, economically successful urban environments tend to be those where people are able to walk between their homes, places of work, shops, schools, local transport hubs and cultural amenities; and where they feel safe doing so.

But many people do not feel that it is safe to walk about the places in which they live, work and relax. Transport is not their only cause of concern; but it is certainly a significant one.

After motorcyclists (another group of travellers who are poorly represented), pedestrians and cyclists are by far the most likely travellers to be injured in accidents. According to the Royal Society for the Prevention of Accidents, for example, more than 60 child pedestrians are killed or injured every week in the UK – that’s over 3000 every year. No wonder that the number of children walking to school has progressively fallen as car ownership has risen, contributing (though it is obviously far from the sole cause) to rising levels of childhood obesity. In its 60 pages, the Traveller Needs study doesn’t mention the safety of pedestrians at all.

A recent working paper published by Transport for London found that the risk and severity of injury for different types of road users – pedestrians, cyclists, drivers, car passengers, bus passengers etc. – vary in complex and unexpected ways; and that in particular, the risks for each type of traveller vary very differently according to age, as our personal behaviours change, depending on the journeys we undertake, and according to the nature of the transport infrastructure we use.

These are not simple issues, they are deeply challenging. They are created by the tension between our need to travel in order to carry out social and economic interactions, and the physical nature of transport which takes up space and creates pollution and danger.

As a consequence, many of the most persistently deprived areas in cities are badly affected by large-scale transport infrastructure that has been primarily designed in the interests of the travellers who pass through them, and not in the interests of the people who live and work around them.

(Photo of Masshouse Circus, Birmingham, a concrete urban expressway that strangled the citycentre before its redevelopment in 2003, by Birmingham City Council)

(Photo of Masshouse Circus, Birmingham, a concrete urban expressway that strangled the city centre before its redevelopment in 2003, by Birmingham City Council)

Birmingham’s Masshouse circus, for example, was constructed in the 1960s as part of the city’s inner ring-road, intended to improve connectivity to the national economy through the road network. However, the impact of the physical barrier that it created to pedestrian traffic can be seen by the stark difference in land value inside and outside the “concrete collar” that the ring-road created around the city centre. Inside the collar, land is valuable enough for tall office blocks to be constructed on it; whilst outside it is of such low value that it is used as a ground-level carpark. The reason for such a sharp change in value? People didn’t feel safe walking across or under the roundabout. The demolition of Masshouse Circus in 2002 enabled a revitalisation of the city centre that has continued for more than a decade.

Atlanta’s Buford Highway is a seven lane road which for two miles has no pavements, no junctions and no pedestrian crossings, passing through an area of houses, shops and businesses. It is an infrastructure fit only for vehicles, not for people. It allows no safe access along or across it for the communities it passes through – it is closed to them, unless they risk their lives.

In Sheffield, two primary schools were recently forced to close after measurements of pollution from diesel vehicles revealed levels 10-15 times higher than those considered the maximum safe limits, caused by traffic from the nearby M1 motorway. The vast majority of vehicles using the motorway comply to the appropriate emissions legislation depending on their age; and until specific emissions measurements were performed at the precise locations of the schools, the previous regional measurements of air quality had been within legal limits. This illustrates the failure of our transport policies to take into account the nature of the environments within which we live, and the detailed impact of transport on them. That’s why it’s now suspected that up to 60,000 people die prematurely every year in the UK due to the effects of diesel emissions, double previous estimates.

Nathaniel Lichfield and Partners recently published a survey of the 2015 Indices of Multiple Deprivation in the UK – the indices summarise many of the challenges that affect deprived communities such as low levels of employment and income; poor health; poor access to quality education and training; high levels of crime; poor quality living environments and shortages of quality housing and services.

Lichfield and Partners found that most of the UK’s Core Cities (the eight economically largest cities outside London, plus Glasgow and Cardiff) are characterised by a ring of persistently deprived areas surrounding their relatively thriving city centres. Whilst clearly the full causes are complex, it is no surprise that those rings feature a concentration of transport infrastructure passing through them, but primarily serving the interests of those passing in and out of the centre.

Birmingham IMD cropped

(Areas of relative wealth and deprivation in Birmingham as measured by the Indices of Multiple Deprivation. Birmingham, like many of the UK’s Core Cities, has a ring of persistently deprived areas immediately outside the city centre, co-located with the highest concentration of transport infrastructure allowing traffic to flow in and out of the centre)

These issues are not considered at all in the Transport Systems Catapult’s study. The word “walk” appears just three times in the document, all in a section describing the characteristics of only one type of traveller, the “dependent passenger” who does not own a car. Their walking habits are never examined, and walking as a transport choice is never mentioned or presented as an option in any of the sections of the report discussing challenges, opportunities, solutions or policy initiatives, beyond a passing mention that public transport users sometimes undertake the beginnings and ends of their journeys on foot. The word “pedestrian” does not appear at all. Cycling is mentioned only a handful of times; once in the same section on dependent passengers, and later on to note that “bike sharing [schemes have] not yet enjoyed high uptake in the UK”. The reason cited for this is that “it is likely that there are simply not enough use cases where using these types of services is convenient and cost-effective for travellers.”

If that is the case, why not investigate ways to extend the applicability of such schemes to broader use cases?

If only the sharing economy were a walking and cycling economy

The role of the Transport Systems Catapult is to promote the UK transport and transport technology industry, and this perhaps explains why so much of the study is focussed on public and private forms of powered transport and infrastructure. But there are many ways for businesses to profit by providing innovative technology and services that support walking and cycling.

What about way-finding services and street furniture that benefit pedestrians, for example, as the Future Cities Catapult recently explored? What about the cycling industry – including companies providing cargo-carrying bicycles as an alternative to small vans and trucks? What about the wearable technology industry to promote exercise measurement and pedestrian navigation along the safest, least polluted routes?

What about the construction of innovative infrastructure that promotes cycling and walking such as the “SkyCycle” proposal to build cycle highways above London’s railway lines, similar to the pedestrian and cycle roundabouts already built in Europe and China? What about the use of conveyor belts along similar routes to transport freight? What about the use of underground, pneumatically powered distribution networks for recycling and waste processing? All of these have been proposed or explored by UK businesses and universities.

And what about the UK’s world-class community of urban designers, town planners and landscape architects, some of whom are using increasingly sophisticated technologies to complement their professional skills in designing places and communities in which living, working and travelling co-exist in harmony? What about our world class University expertise researching visions for sustainable, liveable cities with less intrusive transport systems?

An even more powerful source of innovations to achieve a better balance between transportation and liveability could be the use of “sharing economy” business models to promote social and economic systems that emphasise local, human-powered travel.

Wikipedia describes the sharing economy as “economic and social systems that enable shared access to goods, services, data and talent“. Usually, these systems employ consumer technologies such as SmartPhones and social media to create online peer-to-peer trading networks that disrupt or replace traditional supply chains and customer channels – eBay is an obvious example for trading second hand goods, Airbnb connects travellers with people willing to rent out a spare room, and Uber connects passengers and drivers.

These business models can be enormously successful. Since its formation 8 years ago, Airbnb has acquired access to over 800,000 rooms to let in more than 190 countries; in 2014 the estimated value of this company which employed only 300 people at the time was $13 billion. Uber has demonstrated similarly astonishing growth.

However, it is much less clear what these businesses are contributing to society. In many cases their rapid growth is made possible by operating business models that side-step – or just ignore – the regulation that governs the traditional businesses that they compete with. Whilst they can offer employment opportunities to the providers in their trading networks, those opportunities are often informal and may not be protected by employment rights and minimum wage legislation. As privately held companies their only motivation is to return a profit to their owners.

By creating dramatic shifts in how transactions take place in the industries in which they operate, sharing economy businesses can create similarly dramatic shifts in transport patterns. For example, hotels in major cities frequently operate shuttle buses to transfer guests from nearby airports – a shared form of transport. Airbnb offer no such equivalent transfers to their independent accommodation. This is a general consequence of replacing large-scale, centrally managed systems of supply with thousands of independent transactions. At present there is very little research to understand these impacts, and certainly no policy to address them.

But what if incentives could be created to encourage the formation of sharing economy systems that promoted local transactions that can take place with less need for powered transport?

For example, Borroclub provides a service that matches someone who needs a tool with a neighbour who owns one that they could borrow. Casserole Club connects people who are unable to cook for themselves with a neighbours who are happy to cook and extra portion and share it. The West Midlands Collaborative Commerce Marketplace identifies opportunities for groups of local businesses to collaborate to win new contracts. Such “hyperlocal” schemes are not a new idea, and there are endless possibilities for them to reveal local opportunities to interact; but they struggle to compete for attention and investment against businesses purely focussed on maximising profits and investor returns.

Surely, a study that includes the Future Cities Catapult, Digital Catapult and Transport Systems Catapult amongst its contributors could have explored possibilies for encouraging and scaling hyperlocal sharing economy business models, alongside all those self-driving cars and multi-modal transport planners that industry seems to be quite willing to invest in on its own?

The study does mention some “sharing economy” businesses, including Uber; but it makes no mention of the controversy created because their profit-seeking focus takes no account of their social, economic and environmental impact.

It also mentions the role of online commerce in providing retail options that avoid the need to travel in person – and cites these as an option for reducing the overall demand for travel. But it fails to adequately explore the impact of the consequent requirements for delivery transport – other than to note the potential for detrimental impact on, let’s wait for it, not local communities but: local traffic!

“Enabling lifestyles is about more than just enabling and improving physical travel. 31% (19bn) of journeys made today would rather not have been made if alternative means were available (e.g. online shopping)” (page 15)

“Local authorities and road operators need to be aware that increased goods delivery can potentially have a negative impact on local traffic flows.” (page 24)

Why promote transactions that we carry out in isolation online rather than transactions that we carry out socially by walking, and that could contribute towards the revitalisation of local communities and town centres? Why mention “enabling lifestyles” without exploring the health benefits of walking, cycling and socialising?

(A poster from the International Sustainability Institute's Commuter Toolkit, depicting the space 200 travellers occupy on Seattle's 2nd Avenue when using different forms of transport, and intended to persuade travellers to adopt those forms that use less public space)

(A poster from the International Sustainability Institute’s Commuter Toolkit, depicting the space 200 travellers occupy on Seattle’s 2nd Avenue when using different forms of transport, and intended to persuade travellers to adopt those forms that use less public space)

Self-driving cars as a consumer product represent selfish interests, not societal interests

The sharing economy is not the only example of a technology trend whose social and economic impact cannot be assumed to be positive. The same challenge applies very much to perhaps the most widely publicised transport innovation today, and one that features prominently in the new study: the self-driving car.

On Friday I attended a meeting of the UK’s Intelligent Transport Systems interest group, ITS-UK. Andy Graham of White Willow Consulting gave a report of the recent Intelligent Transport Systems World Congress in Bordeaux. The Expo organisers had provided a small fleet of self-driving cars to transfer delegates between hotels and conference venues.

Andy noted that the cars drove very much like humans did – and that they kept at least as large, if not a larger, gap between themselves and the car in front. On speaking to the various car manufacturers at the show, he learned that their market testing had revealed that car buyers would only be attracted to self-driving cars if they drove in this familiar way.

Andy pointed out that this could significantly negate one of the promoted advantages of self-driving cars: reducing congestion and increasing transport flow volumes by enabling cars to be driven in close convoys with each other. This focus on consumer motivations rather than the holistic impact of travel choices is repeated in the Transport Systems Catapults’ study’s consideration of self-driving cars.

Cars don’t only harm people, communities and the environment if they are diesel or petrol powered and emit pollution, or if they are involved in collisions: they do so simply because they are big and take up space.

Space – space that is safe for people to inhabit – is vital to city and community life. We use it to walk; to sit and relax; to exercise; for our children to play in; to meet each other. Self-driving cars and electric cars take up no less space than the cars we have driven for decades. Cars that are shared take up slightly less space per journey – but are nowhere near as efficient as walking, cycling or public transport in this regard. Car clubs might reduce the need for vehicles to be parked in cities, but they still take up as much space on the road.

The Transport Systems Catapult’s study does explore many means to encourage the use of shared or public transport rather than private cars; but it does so primarily in the interests of reducing congestion and pollution. The relationship between public space, wellbeing and transport is not explored; and neither is the – at best – neutral societal impact of self-driving cars, if their evolution is left to today’s market forces.

Just as the industry and politicians are failing to enact the policies and incentives that are needed to adapt the Smart Cities market to create better cities rather than simply creating efficiencies in service provision and infrastructure, the Intelligent Transport Systems community will fail to deliver transport that serves our society better if it doesn’t challenge our self-serving interests as consumers and travellers and consider the wider interests of society.

The Catapult’s report does highlight the potential need for city-wide and national policies to govern future transport systems consisting of connected and autonomous vehicles; but once again the emphasis is on optimising traffic flows and the traveller experience, not on optimising the outcomes for everyone affected by transport infrastructure and traffic.

As consumers we don’t always know best. In the words of one of the most famous transport innovators in history: “If I had asked people what they wanted, they would have said ‘faster horses’.” (Henry Ford, inventor of the first mass-produced automobile, and of the manufacturing production line).

A failure that matters

The Transport Systems Catapult’s report doesn’t mention most of the issues I’ve explored in this article, and those that it does touch on are quickly passed over. In 60 pages it only mentions walking and cycling a handful of times; it never analyses the needs of pedestrians and cyclists, and beyond a passing mention of employers’ “cycle to work” schemes and the incorporation of bicycle hire schemes in multi-modal ticketing solutions, these modes of transport are never presented as solutions to our transport and social challenges.

This is a failure that matters. The Transport Systems Catapult is only one voice in the Intelligent Transport Systems community, and many of us would do well to broaden our understanding of the context and consequences of our work. For my part when I worked with IBM’s Intelligent Transport Systeams team several years ago I was similarly disengaged with these issues, and focussed on the narrower economic and technological aspects of the domain. It was only later in my career as I sought to properly understand the wider complexities of Smart Cities that I began to appreciate them.

But the Catapult Centre benefits from substantial public funding, is a high profile influencer across the transport sector, and is perceived to have the authority of a relatively independent voice between the public and private sectors. By not taking into account these issues, its recommendations and initiatives run the risk of creating great harm in cities in the UK, and anywhere else our transport industry exports its ideas to.

Both the “Smart Cities” and “Intelligent Transport” communities often talk in terms of breaking down silos in industry, in city systems and in thinking. But in reality we are not doing so. Too many Smart City discussions separate out “energy”, “mobility” and ”wellbeing” as separate topics. Too few invite town planners, urban designers or social scientists to participate. And this is an example of an “Intelligent Transport” discussion that makes the same mistakes.

(Pedestrian’s attempting to cross Atlanta’s notorious Buford Highway; a 7-lane road with no pavements and 2 miles between junctions and crossings. Photo by PBS)

In the wonderful “Walkable City“, Jeff Speck describe’s the epidemiologist Richard Jackson’s stark realisation of the life-and-death significance of good urban design related to transport infrastructure. Jackson was driving along the notorious two mile stretch of Atlanta’s seven lane Buford highway with no pavements or junctions:

“There, by the side of the road, in the ninety-five degree afternoon, he saw a woman in her seventies, struggling under the burden of two shopping bags. He tried to relate her plight to his own work as an epidemiologist. “If that poor woman had collapsed from heat stroke, we docs would have written the cause of death as heat stroke and not lack of trees and public transportation, poor urban form, and heat-island effects. If she had been killed by a truck going by the cause of death would have been “motor vehicle trauma”, and not lack of sidewalks and transit, poor urban planning and failed political leadership.”

We will only harness technology, transport and infrastructure to create better communities and better cities if we seek out and respect those cross-disciplinary insights that take seriously the needs of everyone in our society who is affected by them; not just the needs of those who are its primary users.

Our failure to do so over the last century is demonstrated by the UK’s disgracefully low social mobility; by those areas of multiple deprivation which in most cases have persisted for decades; and by the fact that as a consequence life expectancy for babies born today in the poorest parts of cities in the UK is 20 years shorter than for babies born today in the richest part of the same city.

That is the life and death impact of the transport strategies that we’ve had in the past; the transport strategies we publish today must do better.

Postscript 3rd November

The Transport Systems Catapult replied very positively on Twitter today to my rather forthright criticisms of their report. They said “Great piece Rick. The study is a first step in an ongoing discussion and we welcome further input/ideas feeding in as we go on.”

I’d like to think I’d respond in a similarly gracious way to anyone’s criticism of my own work!

What my article doesn’t say is that the Catapult’s report is impressively detailed and insightful in its coverage of those topics that it does include. I would absolutely welcome their expertise and resources being applied to a broader consideration of the topic of future transport, and look forward to seeing it. 

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Let’s not get carried away by self-driving cars and the sharing economy: they won’t make Smart Cities better places to live, work and play

June 3, 2015 6 Comments

(Cities either balance or create tension between human interaction and transport; how will self-driving cars change that equation?)

(Cities either balance or create tension between human interaction and transport; how will self-driving cars change that equation? With thanks and apologies to Tim Stonor for images and inspiration)

Will we remember to design cities for people and life, enriched by interactions and supported by transport? Or will we put the driverless car and the app that hires it before the passenger?

I’m worried that the current level of interest in self-driving cars as a Smart City initiative is a distraction from the transport and technology issues that really matter in cities.

It’s a great example of a technology that is attracting significant public, private and academic investment because many people will pay for the resulting product in return for the undoubted benefits to their personal safety and convenience.

But will cities full of cars driving themselves be better places to live, work and play than cities full of cars driven by people?

Cities create value when people in them transact with each other: that often requires meeting in person and/or exchanging goods – both of which require transport. From the medieval era to the modern age cities have in part been defined by the tension between our desire to interact and the negative effects created by the size, noise, pollution and danger of the transport that we use to do so – whether that transport is horses and wagons or cars and vans.

A number of town planners and urban designers argue that we’ve got that balance wrong over the past half century with the result that many urban environments are dominated by road traffic and infrastructure to the extent that they inhibit the human interactions that are at the heart of the social and economic life of cities.

What will be the effect of autonomous vehicles on that inherent tension – will they help us to achieve a better balance, or make it harder to do so?

(Traffic clogging the streets of Rome. Photo by AntyDiluvian)

(Traffic clogging the streets of Rome. Photo by AntyDiluvian)

Autonomous vehicles are driven in a different way than the cars that we drive today, and that creates certain advantages: freeing people from the task of driving in order to work or relax; and allowing a higher volume of traffic to flow in safety than currently possible, particularly on national highway networks. And they will almost certainly very soon become better at avoiding accidents with people, vehicles and their surroundings than human drivers.

But they are no smaller than traditional vehicles, so they will take up just as much space. And they will only produce less noise and pollution if they are electric vehicles (which in turn merely create pollution elsewhere in the power system) or are powered by hydrogen – a technology that is still a long way from large-scale adoption.

And whilst computer-driven cars may be safer than cars driven by people, they will not make pedestrians and cyclists feel any safer: people are more likely to feel safe in proximity with slow moving cars with whose drivers they can make eye contact, not automated vehicles travelling at speed. The extent to which we feel safe (which we are aware of) is often a more important influence on our social and economic activity than the extent to which we are actually safe (which we may well not be accurately aware of).

The tension between the creation of social and economic value in cities through interactions between people, and the transport required to support those interactions, is also at the heart of the world’s sustainability challenge. At the “Urban Age: Governing Urban Futures” conference in New Delhi,  November 2014, Ricky Burdett, Director of the London School of Economics’ Cities Program, described the graph below that shows the relationship between social and economic development, as measured by the UN Human Welfare Index, plotted left-to-right; and ecological footprint per person, which is shown vertically, and which by and large grows significantly as social and economic progress is made.  (You can watch Burdett’s presentation, along with those by other speakers at the conference, here).

the relationship between social and economic development, as measured by the UN Human Welfare Index, plotted left-to-right and ecological footprint per person, which is shown vertically

(The relationship between social and economic development, as measured by the UN Human Welfare Index, plotted left-to-right and ecological footprint per person, which is shown vertically)

The dotted line at the bottom of the graph shows when the ecological footprint of each person passes beyond that which our world can support for the entire population. Residents of cities in the US are using five times this limit already, and countries such as China and Brazil, whose cities are growing at a phenomenal rate, are just starting to breach that line of sustainability.

Tackling this challenge does not necessarily involve making economic, social or personal sacrifices, though it certainly involves making changes. In recent decades, a number of politicians such as Enrique Penalosa, ex-Mayor of Bogota, international influencers such as  Joan Clos, Exective Director of UN-Habitat  (as reported informally by Tim Stonor from Dr. Clos’s remarks at the “Urban Planning for City Leaders” conference at the Crystal, London in 2012), and town planners such as Jeff Speck and Charles Montgomery have explored the social and economic benefits of cities that combine low-carbon lifestyles and economic growth by promoting medium-density, mixed-use urban centres that stimulate economies with a high proportion of local transactions within a walkable and cyclable distance.

Of course no single idea is appropriate to every situation, but overall I’m personally convinced that this is the only sensible general conception of cities for the future that will lead to a happy, healthy, fair and sustainable world.

There are many ways that technology can contribute to the development of this sort of urban economy, to complement the work of urban designers and town planners in the physical environment. For example, a combination of car clubs, bicycle hire schemes and multi-modal transport information services is already contributing to a changing culture in younger generations of urban citizens who are less interested in owning cars than previous generations.

ScreenHunter_07 Jun. 03 23.49

(Top: Frederiksberg, Copenhagen, where cyclists and pedestrians on one of the districts main thoroughfares are given priority over cars waiting to turn onto the road. Bottom: Buford Highway, Atlanta, a 2 kilometre stretch of 7-line highway passing through a residential and retail area with no pavements or pedestrian crossings)

And this is a good example that it is not set in stone that cities must inevitably grow towards the high ecological footprints of US cities as their economies develop.

The physicist Geoffrey West’s work is often cited as proof that cities will grow larger, and that their economies will speed up as they do so, increasing their demand for resources and production of waste and pollution. But West’s work is “empirical”, not “deterministic”: it is simply based on measurements and observations of how cities behave today; it is not a prediction for how cities will behave in the future.

It is up to us to discover new services and infrastructures to support urban populations and their desire for ever more intense interactions in a less profligate way. Already today, cities diverge from West’s predictions according to the degree to which they have done so. The worst examples of American sprawl such as Houston, Texas have enormous ecological footprints compared to the standard of living and level of economy activity they support; more forward-thinking cities such as Portland, Vancouver, Copenhagen and Freiberg are far more efficient (and Charles Montgomery has argued that they are home to happier, healthier citizens as a consequence).

However, the role that digital technologies will play in shaping the economic and social transactions of future cities and that ecological footprint is far from certain.

On the one hand modern, technologies make it easier for us to communicate and share information wherever we are without needing to travel; but on the other hand those interactions create new opportunities to meet in person and to exchange goods and services; and so they create new requirements for transport. As technologies such as 3D printingopen-source manufacturing and small-scale energy generation make it possible to carry out traditionally industrial activities at much smaller scales, an increasing number of existing bulk movement patterns are being replaced by thousands of smaller, peer-to-peer interactions created by transactions in online marketplaces. We can already see the effects of this trend in the vast growth of traffic delivering goods that are purchased or exchanged online.

I first wrote about this “sharing economy“, defined by Wikipedia as “economic and social systems that enable shared access to goods, services, data and talent”, two years ago. It has the potential to promote a sustainable economy through matching supply and demand in ways that weren’t previously possible. For example, e-Bay CEO John Donahoe has described the environmental benefits created by the online second-hand marketplace extending the life of over $100 billion of goods since it began, representing a significant reduction in the impact of manufacturing and disposing of goods. But on the other hand those benefits are offset by the carbon footprint of the need to transport goods between the buyers and sellers who use them; and by the social and economic impact of that traffic on city communities.

There are many sharing economy business models that promote sustainable, walkable, locally-reinforcing city economies: Casserole Club, who use social media to introduce people who can’t cook for themselves to people who are prepared to volunteer to cook for others; the West Midlands Collaborative Commerce Marketplace, which uses analytics technology to help it’s 10,000 member businesses work together in local partnerships to win more than £4billion in new contracts each year, and Freecyle and other free recycling networks which tend to promote relatively local re-use of goods and services because the attraction of free, used goods diminishes with the increasing expense of the travel required to collect them.

(Packages from Amazon delivered to Google’s San Francisco office. Photo by moppet65535)

But it takes real skill and good ideas to create and operate these business models successfully; and those abilities are just those that the MIT economists Andy McAfee, Erik Brynjolfsson and Michael Spence have pointed out can command exceptional financial rewards in a capitalist economy. What is there to incent the people who posess those skills to use them to design business models that achieve balanced financial, social and environmental outcomes, as opposed to simply maximising profit and personal return?

The vast majority of systematic incentives act to encourage such people to design businesses that maximise profit. That is why many social enterprises are small-scale, and why many successful “sharing economy” businesses such as Airbnb and Uber have very little to do with sharing value and resources, but are better understood as a new type of profit-seeking transaction broker. It is only personal, ethical attitudes to society that persuade any of us to turn our efforts and talents to more balanced models.

This is a good example of a big choice that we are taking in millions of small decisions: the personal choices of entrepreneurs, social innovators and business leaders in the businesses they start, design and operate; and our personal choices as consumers, employees and citizens in the products we buy, the businesses we work for and the politicians we vote for.

For individuals, those choices are influenced by the degree to which we understand that our own long term interests, the long term interests of the businesses we run or work for, and the long term interests of society are ultimately the same – we are all people living on a single planet together – and that that long-term alignment is more important than the absolute maximisation of short-term financial gain.

But as a whole, the markets that invest in businesses and enable them to operate and grow are driven by relatively short-term financial performance unless they are influenced by external forces.

In this context, self-driving cars – like any other technology – are strictly neutral and amoral. They are a technology that does have benefits, but those benefits are relatively weakly linked to the outcomes that most cities have set out as their objectives. If we want autonomous vehicles, “sharing economy” business models or the Internet of Things to deliver vibrant, fair, healthy and happy cities then more of our attention should be on the policy initiatives, planning and procurement frameworks, business licensing and taxation regimes that could shape the market to achieve those outcomes. The Centre for Data Innovation, British Standards Institute, and Future Cities Catapult have all published work on this subject and are carrying out  initiatives to extend it.

(Photograph by Martin Deutsche of plans to redevelop Queen Elizabeth Park, site of the 2012 London Olympics. The London Legacy Development’s intention, in support of the Smart London Plan, is “for the Park to become one of the world’s leading digital environments, providing a unique opportunity to showcase how digital technology enhances urban living. The aim is to use the Park as a testing ground for the use of new digital technology in transport systems and energy services.”)

Cities create the most value in the most sustainable way when they encourage transactions between people that can take place over a walkable or cyclable distance. New technologies and new technology-enabled business models have great potential to encourage both of those outcomes, but only if we use the tools available to us to shape the market to make them financially advantageous to private sector enterprise.  We should be paying more attention to those tools, and less attention to technology.

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From concrete to telepathy: how to build future cities as if people mattered

November 11, 2014 15 Comments

(An infographic depicting realtime data describing Dublin - the waiting time at road junctions; the location of buses; the number of free parking spaces and bicycles available to hire; and sentiments expressed about the city through social meida)

(An infographic depicting realtime data describing Dublin – the waiting time at road junctions; the location of buses; the number of free parking spaces and bicycles available to hire; and sentiments expressed about the city through social media)

(I was honoured to be asked to speak at TEDxBrum in my home city of Birmingham this weekend. The theme of the event was “DIY” – “the method of building, modifying or repairing something without the aid of experts or professionals”. In other words, how Birmingham’s people, communities and businesses can make their home a better place. This is a rough transcript of my talk).

What might I, a middle-aged, white man paid by a multi-national corporation to be an expert in cities and technology, have to say to Europe’s youngest city, and one of its most ethnically and nationally diverse, about how it should re-create itself “without the aid of experts or professionals”?

Perhaps I could try to claim that I can offer the perspective of one of the world’s earliest “digital natives”. In 1980, at the age of ten, my father bought me one of the world’s first personal computers, a Tandy TRS 80, and taught me how to programme it using “machine code“.

But about two years ago, whilst walking through London to give a talk at a networking event, I was reminded of just how much the world has changed since my childhood.

I found myself walking along Wardour St. in Soho, just off Oxford St., and past a small alley called St. Anne’s Court which brought back tremendous memories for me. In the 1980s I spent all of the money I earned washing pots in a local restaurant in Winchester to travel by train to London every weekend and visit a small shop in a basement in St. Anne’s Court.

I’ve told this story in conference speeches a few times now, perhaps to a total audience of a couple of thousand people. Only once has someone been able to answer the question:

“What was the significance of St. Anne’s Court to the music scene in the UK in the 1980s?”

Here’s the answer:

Shades Records, the shop in the basement, was the only place in the UK that sold the most extreme (and inventive) forms of “thrash metal” and “death metal“, which at the time were emerging from the ashes of punk and the “New Wave of British Heavy Metal” in the late 1970s.

G157 Richard with his Tandy

(Programming my Tandy TRS 80 in Z80 machine code nearly 35 years ago)

The process by which bands like VOIVOD, Coroner and Celtic Frost – who at the time were three 17-year-olds who practised in an old military bunker outside Zurich – managed to connect – without the internet – to the very few people around the world like me who were willing to pay money for their music feels like ancient history now. It was a world of hand-printed “fanzines”, and demo tapes painstakingly copied one at a time, ordered by mail from classified adverts in magazines like Kerrang!

Our world has been utterly transformed in the relatively short time between then and now by the phenomenal ease with which we can exchange information through the internet and social media.

The real digital natives, though, are not even those people who grew up with the internet and social media as part of their everyday world (though those people are surely about to change the world as they enter employment).

They are the very young children like my 6-year-old son, who taught himself at the age of two to use an iPad to access the information that interested him (admittedly, in the form of Thomas the Tank Engine stories on YouTube) before anyone else taught him to read or write, and who can now use programming tools like MIT’s Scratch to control computers vastly more powerful than the one I used as a child.

Their expectations of the world, and of cities like Birmingham, will be like no-one who has ever lived before.

And their ability to use technology will be matched by the phenomenal variety of data available to them to manipulate. As everything from our cars to our boilers to our fridges to our clothing is integrated with connected, digital technology, the “Internet of Things“, in which everything is connected to the internet, is emerging. As a consequence our world, and our cities, are full of data.

(The programme I helped my 6-year old son write using MIT's "Scratch" language to draw a picture of a house)

(The programme I helped my 6-year old son write using MIT’s “Scratch” language to cause a cartoon cat to draw a picture of a house)

My friend the architect Tim Stonor calls the images that we are now able to create, such as the one at the start of this article, “data porn”. The image shows data about Dublin from the Dublinked information sharing partnership: the waiting time at road junctions; the location of buses; the number of free parking spaces and bicycles available to hire; and sentiments expressed about the city through social media.

Tim’s point is that we should concentrate not on creating pretty visualisations; but on the difference we can make to cities by using this data. Through Open Data portals, social media applications, and in many other ways, it unlocks secrets about cities and communities:

  • Who are the 17 year-olds creating today’s most weird and experimental music? (Probably by collaborating digitally from three different bedroom studios on three different continents)
  • Where is the healthiest walking route to school?
  • Is there a local company nearby selling wonderful, oven-ready curries made from local recipes and fresh ingredients?
  • If I set off for work now, will a traffic jam develop to block my way before I get there?

From Dublin to Montpellier to Madrid and around the world my colleagues are helping cities to build 21st-Century infrastructures that harness this data. As technology advances, every road, electricity substation, University building, and supermarket supply chain will exploit it. The business case is easy: we can use data to find ways to operate city services, supply chains and infrastructure more efficiently, and in a way that’s less wasteful of resources and more resilient in the face of a changing climate.

Top-down thinking is not enough

But to what extent will this enormous investment in technology help the people who live and work in cities, and those who visit them, to benefit from the Information Economy that digital technology  and data is creating?

This is a vital question. The ability of digital technology to optimise and automate tasks that were once carried out by people is removing jobs that we have relied on for decades. In order for our society to be based upon a fair and productive economy, we all need to be able to benefit from the new opportunities to work and be successful that are being created by digital technology.

(Photo of Masshouse Circus, Birmingham, a concrete urban expressway that strangled the citycentre before its redevelopment in 2003, by Birmingham City Council)

(Photo of Masshouse Circus, Birmingham, a concrete urban expressway that strangled the city centre before its redevelopment in 2003, by Birmingham City Council)

Too often in the last century, we got this wrong. We used the technologies of the age – concrete, lifts, industrial machinery and cars – to build infrastructures and industries that supported our mass needs for housing, transport, employment and goods; but that literally cut through and isolated the communities that create urban life.

If we make the same mistake by thinking only about digital technology in terms of its ability to create efficiencies, then as citizens, as communities, as small businesses we won’t fully benefit from it.

In contrast, one of the authors of Birmingham’s Big City Plan, the architect Kelvin Campbell, created the concept of “massive / small“. He asked: what are the characteristics of public policy and city infrastructure that create open, adaptable cities for everyone and that thereby give rise to “massive” amounts of “small-scale” innovation?

In order to build 21st Century cities that provide the benefits of digital technology to everyone we need to find the design principles that enable the same “massive / small” innovation to emerge in the Information Economy, in order that we can all use the simple, often free, tools available to us to create our own opportunities.

There are examples we can learn from. Almere in Holland use analytics technology to plan and predict the future development of the city; but they also engage in dialogue with their citizens about the future the city wants. Montpellier in France use digital data to measure the performance of public services; but they also engage online with their citizens in a dialogue about those services and the outcomes they are trying to achieve. The Dutch Water Authority are implementing technology to monitor, automate and optimise an infrastructure on which many cities depend; but making much of the data openly available to communities, businesses, researchers and innovators to explore.

There are many issues of policy, culture, design and technology that we need to get right for this to happen, but the main objectives are clear:

  • The data from city services should be made available as Open Data and through published “Application Programming Interfaces” (APIs) so that everybody knows how they work; and can adapt them to their own individual needs.
  • The data and APIs should be made available in the form of Open Standards so that everybody can understand it; and so that the systems that we rely on can work together.
  • The data and APIs should be available to developers working on Cloud Computing platforms with Open Source software so that anyone with a great idea for a new service to offer to people or businesses can get started for free.
  • The technology systems that support the services and infrastructures we rely on should be based on Open Architectures, so that we have freedom to chose which technologies we use, and to change our minds.
  • Governments, institutions, businesses and communities should participate in an open dialogue, informed by data and enlightened by empathy, about the places we live and work in.

If local authorities and national government create planning policies, procurement practises and legislation that require that public infrastructure, property development and city services provide this openness and accessibility, then the money spent on city infrastructure and services will create cities that are open and adaptable to everyone in a digital age.

Bottom-up innovation is not enough, either

(Coders at work at the Birmingham “Smart Hack”, photographed by Sebastian Lenton)

Not everyone has access to the technology and skills to use this data, of course. But some of the people who do will create the services that others need.

I took part in my first “hackathon” in Birmingham two years ago. A group of people spent a weekend together in 2012 asking themselves: in what way should Birmingham be better? And what can we do about it? Over two days, they wrote an app, “Second Helping”, that connected information about leftover food in the professional kitchens of restaurants and catering services, to soup kitchens that give food to people who don’t have enough.

Second Helping was a great idea; but how do you turn a great idea and an app into a change in the way that food is used in a city?

Hackathons and “civic apps” are great examples of the “bottom-up” creativity that all of us use to create value – innovating with the resources around us to make a better life, run a better business, or live in a stronger community. But “bottom-up” on it’s own isn’t enough.

The result of “bottom-up” innovation at the moment is that life expectancy in the poorest parts of Birmingham is more than 10 years shorter than it is in the richest parts. In London and Glasgow, it’s more than 20 years shorter.

If you’re born in the wrong place, you’re likely to die 10 years younger than someone else born in a different part of the same city. This shocking situation arises from many, complex issues; but one conclusion that it is easy to draw is that the opportunity to innovate successfully is not the same for everyone.

So how do we increase everybody’s chances of success? We need to create the policies, institutions, culture and behaviours that join up the top-down thinking that tends to control the allocation of resources and investment, especially for infrastructure, with the needs of bottom-up innovators everywhere.

Translational co-operation

Harborne Food School

(The Harborne Food School, which will open in the New Year to offer training and events in local and sustainable food)

The Economist magazine reminded us of the importance of those questions in a recent article describing the enormous investments made in public institutions such as schools, libraries and infrastructure in the past in order to distribute the benefits of the Industrial Revolution to society at large rather than concentrate them on behalf of business owners and the professional classes.

But the institutions of the past, such as the schools which to a large degree educated the population for repetitive careers in labour-intensive factories, won’t work for us today. Our world is more complicated and requires a greater degree of localised creativity to be successful. We need institutions that are able to engage with and understand individuals; and that make their resources openly available so that each of us can use them in the way that makes most sense to us. Some public services are starting to respond to this challenge, through the “Open Public Services” agenda; and the provision of Open Data and APIs by public services and infrastructure are part of the response too.

But as Andrew Zolli describes in “Resilience: why things bounce back“, there are both institutional and cultural barriers to engagement and collaboration between city institutions and localised innovation. Zolli describes the change-makers who overcome those barriers as “translational leaders” – people with the ability to engage with both small-scale, informal innovation in communities and large-scale, formal institutions with resources.

We’re trying to apply that “translational” thinking in Birmingham through the Smart City Alliance, a collaboration between 20 city institutions, businesses and innovators. The idea is to enable conversations about challenges and opportunities in the city, between people, communities, innovators and  the organisations who have resources, from the City Council and public institutions to businesses, entrepreneurs and social enterprises. We try to put people and organisations with challenges or good ideas in touch with other people or organisations with the ability to help them.

This is how we join the “top-down” resources, policies and programmes of city institutions and big companies with the “bottom-up” innovation that creates value in local situations. A lot of the time it’s about listening to people we wouldn’t normally meet.

Partly as a consequence, we’ve continued to explore the ideas about local food that were first raised at the hackathon. Two years later, the Harborne Food School is close to opening as a social enterprise in a redeveloped building on Harborne High Street that had fallen out of use.

The school will be teaching courses that help caterers provide food from sustainable sources, that teach people how to set up and run food businesses, and that help people to adopt diets that prevent or help to manage conditions such as diabetes. The idea has changed since the “Second Helping” app was written, of course; but the spirit of innovation and local value is the same.

Cities that work like magic

So what does all this have to do with telepathy?

The innovations and changes caused by the internet over the last two decades have accelerated as it has made information easier and easier to access and exchange through the advent of technologies such as broadband, mobile devices and social media. But the usefulness of all of those technologies is limited by the tools required to control them – keyboards, mice and touchscreens.

Before long, we won’t need those tools at all.

Three years ago, scientists at the University of Berkely used computers attached to an MRI scanner to recreate moving images from the magnetic field created by the brain of a person inside the scanner watching a film on a pair of goggles. And last year, scientists at the University of Washington used similar technology to allow one of them to move the other’s arm simply by thinking about it. A less sensitive mind-reading technology is already available as a headset from Emotiv, which my colleagues in IBM’s Emerging Technologies team have used to help a paralysed person communicate by thinking directional instructions to a computer.

Telepathy is now technology, and this is just one example of the way that the boundary between our minds, bodies and digital information will disappear over the next decade. As a consequence, our cities and lives will change in ways we’ve never imagined, and some of those changes will happen surprisingly quickly.

I can’t predict what Birmingham will or should be like in the future. As a citizen, I’ll be one of the million or so people who decide that future through our choices and actions. But I can say that the technologies available to us today are the most incredible DIY tools for creating that future that we’ve ever had access to. And relatively quickly technologies like bio-technology, 3D printing and brain/computer interfaces will put even more power in our hands.

As a parent, I get engaged in my son’s exploration of these technologies and help him be digitally aware, creative and responsible. Whenever I can, I help schools, Universities, small businesses or community initiatives to use them, because I might be helping one of IBM’s best future employees or business partners; or just because they’re exciting and worth helping. And as an employee, I try to help my company take decisions that are good for our long term business because they are good for the society that the business operates in.

We can take for granted that all of us, whatever we do, will encounter more and more incredible technologies as time passes. By remembering these very simple things, and remembering them in the hundreds of choices I make every day, I hope that I’ll be using them to play my part in building a better Birmingham, and better cities and communities everywhere.

(Shades Records in St. Anne's Court in the 1980s)

(Shades Records in St. Anne’s Court in the 1980s. You can read about the role it played in the development of the UK’s music culture – and in the lives of its customers – in this article from Thrash Hits;  or this one from Every Record Tells a Story. And if you really want to find out what it was all about, try watching Celtic Frost or VOIVOD in the 1980s!)

Filed under Smarter Cities Tagged with , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

12 simple technologies for cities that are Smart, open and fair

July 1, 2014 12 Comments

(Fritz Lang’s 1927 dystopian film Metropolis pictured a city that exploited futuristic technologies, but only on behalf of a minority of its citizens. Image by Breve Storia del Cinema)

Efficiency; resilience; growth; vitality. These are all characteristics that cities desire, and that are regularly cited as the objectives of Smarter City programmes and other forward-looking initiatives.

But, though it is less frequently stated, a more fundamental objective underlies all of these: fairness.

The Nobel Prize-winning economist Joseph Stiglitz has written extensively about the need to prioritise fairness as a policy and investment objective in a world that in many areas – and in many cities – is becoming more unequal. That inequality is demonstrated by the difference in life expectancy of 20 years or so that exists between the poorest and richest parts of many UK cities.

I think the Smart Cities movement will only be viewed as a success by the wider world if it contributes to redressing that imbalance.

So how do we design Smart City systems that employ technology to make cities more successful, resilient and efficient; in a way that distributes resources and creates opportunities more fairly than today?

One answer to that question is that the infrastructures and institutions of such cities should be open to citizens and businesses: accessible, understandable, adaptable and useful.

Why do we need open cities?

In the wonderful “Walkable City“, Jeff Speck describe’s the epidemiologist Richard Jackson’s stark realisation of the life-and-death significance of good urban design. Jackson was driving along a notorious 2 mile stretch of Atlanta’s 7-lane Buford highway with no pavements or junctions:

There, by the side of the road, in the ninety-five degree afternoon, he saw a woman in her seventies, struggling under the burden of two shopping bags. He tried to relate her plight to his own work as an epidemiologist. “If that poor woman had collapsed from heat stroke, we docs would have written the cause of death as heat stroke and not lack of trees and public transportation, poor urban form, and heat-island effects. If she had been killed by a truck going by the cause of death would have been “motor vehicle trauma”, and not lack of sidewalks and transit, poor urban planning and failed political leadership.”

(Pedestrian’s attempting to cross Atlanta’s notorious Buford Highway; a 7-lane road with no pavements and 2 miles between junctions and crossings. Photo by PBS)

Buford Highway is an infrastructure fit only for vehicles, not for people. It allows no safe access along or across it for the communities it passes through – it is closed to them, unless they risk their lives.

At the same time that city leaders are realising more and more that better planning is needed to create more equal cities, so it  is imperative that the digital infrastructures we deploy in cities are accessible and useful to citizens, not as dangerous to them as Buford Highway.

Unfortunately, there are already examples of city infrastructures using technologies that are poorly designed, that fail to serve the needs of  communities, or that fail in operation.

For instance, a network of CCTV cameras in Birmingham were eventually dismantled after it was revealed they had been erected to gather evidence of terrorist activities in Birmingham’s Muslim communities, rather than in support of their safety. And there have been many examples of the failure of both public sector agencies and private companies to properly safeguard the data they hold about citizens.

Market failures can result in the benefits of technology being more accessible to wealthier communities than poorer communities. For example,  private sector network providers will not deploy connectivity in areas which are insufficiently economically active for them to make a profit, and Government funding is not yet sufficient to close the gap. And community lenders, who typically offer loans at one-tenth to one-hundredth the cost of payday lenders, have so far lacked the resources to invest in the online technology that makes some payday loans so easy to take out – though this is starting to change.

One of the technology industry’s most notorious failures, the Greyhound Lines bus company’s 1993 “Trips” reservations system, made a city service – bus transport – unusable. The system was intended to make it quicker and easier for ticket agents to book customers onto Greyhound’s buses. But it was so poorly designed and operated so slowly that passengers missed their buses whilst they stood in line waiting for their tickets; were separated from their luggage; and in some cases were stranded overnight in bus terminals.

In the 21st Century, badly applied digital technology will create bad cities, just as badly designed roads and buildings did in the last century.

(The SMS for Life project uses the cheap and widely used SMS infrastructure to create a dynamic, collaborative supply chain for medicines between pharmacies in Africa. Photo by Novartis AG)

Smart Cities for the digitally disconnected

It’s possible to benefit from Smart city infrastructures without being connected to the internet or having skills in digital technology – Stockholm’s road-use charging scheme reduces congestion and pollution for everyone in the city, for example.

But the benefits of many Smart systems are dependent on being connected to the internet and having the skills to use it. From the wealth of educational material now available online (from the most sophisticated Harvard University courses to the most basic tutorials on just about any subject available on YouTube), to the increasing role of technology in high-paid careers, it’s absolutely obvious that the ability to access and use the internet and digital technologies in the future will be a crucial component of a successful life.

Smart cities won’t be fair cities if we take connectivity and skills for granted. Worldwide, fully one-third of the population has never been online; and even in as rich and advanced a country as the United Kingdom, 18% of adults – a fifth of the voting population – have never used the internet. At the risk of generalising a complex issue, many of those people will be those that Smart City services should create benefits for if they are to contribute to making cities fairer.

After legal challenges from private sector providers, the UK Government’s plan to assist cities in funding the deployment of ubiquitous broadband connectivity has been replaced by a voucher scheme that subsidises businesses connecting to existing networks. The scheme will not now directly help to improve broadband coverage in those areas that are poorly served because they are economically relatively inactive – precisely the areas that need the most help.

There’s been a lot of discussion of “net neutrality” recently – the principle that on the Internet, all traffic is equal, and that there is no way to pay for certain data to be treated preferentially. The principle is intended to ensure that the benefits of the internet are equally available to everyone.

But net neutrality is irrelevant to those who can’t access the internet at all; and the free market is already bypassing it in some ways. Network providers who control the local infrastructures that connect homes and businesses to the internet are free to charge higher prices for faster connections. Wealthy corporations and governments can bypass parts of the internet entirely with their own international cable networks through which they can route traffic between users on one continent and content on another.

Governments in emerging economies are building new cities to house their rapidly urbanising populations with ubiquitous, high-speed connectivity from the start. The Australian government is investing the profits from selling raw materials to support that construction boom in providing broadband coverage across the entire country. The least wealthy areas of European cities will be further disadvantaged compared to them unless we can find ways to invest in their digital infrastructure without contravening the European Union’s “State aid” law.

Technology as if people mattered

The UK’s Government Digital Service employ an excellent set of agile, user-centric design principles that are intended to promote the development of Smarter, digitally-enabled services that can be accessed by anyone anywhere who needs them, regardless of their level of skill with digital technology or ability to access the Internet.

The principles include: “Start with needs”; “Do the hard work to make it simple”; “Build for inclusion”; “Understand context”; and “Build digital services, not websites”.

(An electricity bill containing information provided by OPower comparing one household’s energy usage to their neighbours. Image from Grist)

A good example of following these principles and designing excellent, accessible digital services using common sense is the London Borough of Newham. By concentrating on the delivery of services through mobile telephones – which are much more widely owned than PCs and laptops – and on contexts in which a friend or family member assists the ultimate service user, Newham have achieved a remarkable shift to online services in one of London’s least affluent boroughs, home to many communities and citizens without access to broadband connectivity or traditional computers.

Similar, low-tech innovations in designing systems that people find useful can be found in some smart meter deployments.

In principle, the analytic technology in smart meters can provide insights that helps households and businesses reduce energy usage – identifying appliances that are operating inefficiently, highlighting leaks, and comparing households’ energy usage to that of their neighbours.

But most people don’t want to look at smart meter displays or consult a computer before they put the washing on or have a shower.

In one innovative project in the village of Chale, these issues were overcome by connecting analytic technology to a glow globe in the lounge – the globe simply glows red, orange or green depending on whether too much energy is being used compared to that expected for the time of day and year. A similarly effective but even more down-to-earth approach was adopted by OPower in the US who reported that they have helped households save 1.9 terawatt hours of power simply by including a report based on data from smart meters in a printed letter sent with customers’ electricity bills.

There are countless other examples. During peak traffic periods, Dublin’s “Live Drive” radio station plays a mixture of 80s pop music and traffic information derived from sophisticated analytics developed by IBM’s Smarter Cities Research team based on data from road sensors and GPS beacons in the city’s buses. And in India’s rural Karnataka region, which lacks internet infrastructure and where many workers lack literacy skills, let alone access to computers and smartphones, the benefits of online job portals have been recreated using “spoken web” technology using the existing traditional analogue telephone network.

(The inspirational Kilimo Salama scheme that uses

(The inspirational Kilimo Salama scheme that uses “appropriate technology” to make crop insurance affordable to subsistence farmers. Photo by Burness Communications)

In Kenya, Kilimo Salama has made crop insurance affordable for subsistence farmers by using remote weather monitoring to trigger payouts via Safaricom’s M-Pesa mobile payments service, rather than undertaking expensive site visits to assess claims. And the SMS for Life project in Tanzania uses the cheap and widely used SMS infrastructure to create a dynamic, collaborative supply chain for medicine between rural pharmacists.

These are all examples of what was originally described as “Intermediate Technology” by the economist Ernst Friedrich “Fritz” Schumacher in his influential work, “Small is Beautiful: Economics as if People Mattered“, and is now known as Appropriate Technology.

12 “appropriate technologies” for Smart Cities

Schumacher’s views on technology were informed by his belief that our approach to economics should be transformed “as if people mattered”. He asked:

What happens if we create economics not on the basis of maximising the production of goods and the ability to acquire and consume them – which ends up valuing automation and profit – but on the Buddhist definition of the purpose of work: “to give a man a chance to utilise and develop his faculties; to enable him to overcome his ego-centredness by joining with other people in a common task; and to bring forth the goods and services needed for a becoming existence.”

Schumacher pointed out that the most advanced technologies, to which we often look to create value and growth, are in fact only effective in the hands of those with the resources and skills required to use them- i.e. those who are already wealthy; and that by emphasising efficiency, output and profit they tend to further concentrate economic value in the hands of the wealthy – often specifically by reducing the employment of people with less advanced skills and roles.

In contrast, Schumacher felt that the most genuine “development ” of our society would occur when the most possible people were employed in a way that gave them the practical ability to earn a living ; and that also offered a level of human reward – much as Maslow’s “Hierarchy of Needs” first identifies our most basic requirements for food, water, shelter and security; but next relates the importance of family, friends and “self-actualisation” (which can crudely be described as the process of achieving things that we care about).

This led him to ask:

What is that we really require from the scientists and technologists? I should answer:

We need methods and equipment which are:

    • Cheap enough so that they are accessible to virtually everyone;
    • Suitable for small-scale application; and
    • Compatible with man’s need for creativity

(Maslow’s Hierarchy of Needs, image by Factoryjoe via Wikimedia Commons)

I can’t think of a more powerful set of tools that reflect these characteristics than the digital technologies that have emerged over the past decade, such as social media, smartphones, Cloud computing and Open Data. They provide a digital infrastructure of appropriate technologies that are accessible to everyone, but that connect with the large scale city infrastructures that support millions of urban lives; and they give citizens, communities and businesses the ability to adapt city infrastructures to their own needs.

I can think of at least 12 such technologies that are particularly important; and that fall into the categories of “Infrastructures that matter”; “Technologies for everyone”; and “The keys to the city”.

Infrastructures that matter

1.Broadband connectivity

I’ve covered the importance of broadband connectivity, and the challenges involved in providing it ubiquitously, already, so I won’t go into detail again here. But whether it’s fixed-line, mobile or wi-fi, its benefits are becoming so significant that it can’t be omitted.

2. Cloud computing

Before Cloud computing, anyone who wanted to develop a computing system for others to use had to invest up-front in an infrastructure capable of operating the service to a reasonable level of reliability. Cloud computing provides a much easier, cheaper alternative: rent a little bit of someone else’s infrastructure. And if your service becomes popular, don’t worry about carrying out complex and costly upgrades, just rent a little more.

Cloud computing has helped to democratise digital services by making it  it dramatically easier and cheaper for anyone to create and offer them.

Technologies for everyone

3. Mobile and Smart phones

In 2013, the number of cellphone subscriptions worldwide surpassed the number of people who have ever owned fixed line telephones.

In the developed world, we’re conscious of the increasing power of Smartphones; and Councils such as Newham are exploiting the fact that many people who lack the desire or resources to purchase a computer and a broadband connection possess and use relatively sophisticated Smartphones through which they access digital services and content.

But in some countries in the developing world, the real story is simply the availability of the first basic infrastructure – voice calls and SMS – that’s available to almost everyone, everywhere. According to one report, access to a basic mobile phone is more common than access to a toilet with proper drainage. In his TEDGlobal 2013 talk, Toby Shapshak described how entire business infrastructures and supply chains are being built upon SMS and similiarly “appropriate” technologies – to the extent that 4o% of Kenya’s GDP now passes through the M-Pesa mobile payments service offered by Safaricom. Banks, technology entrepreneurs, governments and others in the developed world are looking to this wave of innovation as a source of new ideas.

4. Social media

In his 2011 book “Civilization“, Niall Fergusson comments that news of the Indian Mutiny in 1857 took 46 days to reach London, travelling in effect at 3.8 miles an hour. By Jan 2009 when US Airways flight 1549 crash landed in the Hudson river, Jim Hanrahan’s message on Twitter communicated the news to the entire world four minutes later; it reached Perth, Australia at more than 170,000 miles an hour.

Social media is the tool that around a quarter of the world’s population now simply uses to stay in touch with friends and family at this incredible speed.

At a recent Mayoral debate on Smarter Cities, Ridwan Kamil, Mayor of Bandung, Indonesia, described how he has nurtured an atmosphere of civic engagement, trust and transparency by encouraging his staff to connect with the city’s 2.3 million Twitter-using citizens through social media. By encouraging citizens to report issues online and by publishing details of city spending, Mayor Kami has helped to combat corruption and improve public services. Montpellier in France is engaging with citizens through social media in a similar way, asking them to explore data about their city and suggest ways to improve it. And the ambitious control room set up in Rio de Janeiro by Mayor Eduardo Paes to help manage the city during the current World Cup uses social media not just as one of the information feeds that provides insight into what is happening in the city, but to keep citizens as well informed as possible.

The “Community Lovers Guide“, of which 60 editions have now been published across the world, contains stories of people and projects that have improved their communities. The guide is not concerned directly with technology; but many of the initiatives that it describes have used social media as a tool for engaging with stakeholders and supporters.

And we increasingly use social media to conduct business. From e-Bay to Uber, social media is being used to create “sharing economy” business models that replace traditional sales channels and supply chains with networks of peer-to-peer transactions in industries from financial services to agriculture to distribution to retail. Nearly 2 billion of us now regularly use the technologies that allow us to participate in those trading networks.

5. The touchscreen

Three years ago, I watched my then 2-year-old son teach himself how to use a touchscreen tablet to watch cartoons from around the world. He is a member of the first generation to grow up with the world’s information literally at their fingertips before they can read and write.

The simplicity of the touchscreen has already led to the adoption of tablet computers by huge numbers of people who would never have so willingly chosen to use a laptop computer and keyboard. As touchscreens and the devices that use them become cheaper and cheaper, many more people who currently don’t choose to access online content and services will do so without realising it, simply by interacting with the world around them.

We will rapidly develop even more intimate interfaces to technology. Three years ago, scientists at the University of Berkely used computers attached to an MRI scanner to recreate moving images from the magnetic field created by the brain of a person inside the scanner watching a film on a pair of goggles. And last year, scientists at the University of Washington used similar technology to allow one of them to move the other’s arm simply by thinking about it. Whilst it will take time for these technologies to become widely available – and there are certainly ethical issues concerning their use that must be addressed in the process – eventually they will make an important contribution to making information and the ability to communicate widely even more accessible than today.

6. Open Source software

Open Source software is one of the very few technologies that is free in principle to anyone with the time to understand how to use it. It is not free in the medium or long-term – most organisations that use it pay for some form of support or maintenance to be carried out on their Open Source systems. But it is free to get started, and the Open Source community is a great place to get help and advice whilst doing so.

My colleagues around the world work very hard to ensure that IBM’s technologies support open source technology, from interoperating with the MySQL database and CKAN open data portal; to donating IBM-developed technologies such as Eclipse, MQTT and Node-RED to the Open Source community; to IBM’s new “BlueMix” Cloud computing platform for developers which is built from Open Source technology and offers developers 50 pre-built services for inclusion in their Apps, many of which are open source.

Not all technology is Open Source, and there are good reasons why many technology companies large and small invest in developing products and services for cities that use proprietary software – often, simply to protect their investment. For as long as those products and services offer valuable capabilities that are not available as open source software, cities will use them.

But it is vital that city systems incorporating those technologies are nevertheless open for use by open source software, simply to make them as widely accessible as possible for people who need to adapt them to their own needs.

7. Intelligent hardware

The emergence of the internet as a platform for enabling sales, marketing and logistics over the last decade has enabled small and micro-businesses to reach markets across the world that were previously accessible only to much larger organisations with international sales and distribution networks.

More recently, the emergence and maturation of technologies such as 3D printingopen-source manufacturing and small-scale energy generation are enabling small businesses and community initiatives to succeed in new sectors by reducing the scale at which it is economically viable to carry out what were previously industrial activities – a trend recently labelled by the Economist magazine as the “Third Industrial Revolution“.

Arduino, an Open Source electronics prototyping platform, and the Raspberry Pi, a cheap and simple computer intended to simplify the process of teaching programming skills, provide very easy introductions to these technologies; and organisations such as Hub Launchpad and TechShop make it possible for entrepreneurs and small businesses to explore them in more depth.

The keys to the city

8. Open APIs 

An “API” is an “Application Programming Interface“: it is a tool that allows one computer system – such as an Open Source “app” written by an entrepreneur or social innovator – to use the information and capabilities of another computer system – such as a traffic information system for a city’s transport network.

For example, Amazon make an API available to developers that exposes all of the capabilities of Amazon Marketplace – from listing products, to changing prices to despatching goods to customers. Whilst these features are not free to use, they offer one way for businesses to create new online shops extremely quickly,  linked to a fulfilment operation to support them.

Open APIs are a tool that can make digital city infrastructures open to local innovation, and allow citizens, businesses and communities to adapt them to their own needs. For instance, Birmingham’s Droplet, a SmartPhone payment service that encourages local economic growth by making it easy to pay for goods and services from local merchants, offer a developer API to allow their fast, cheap payments system to be included in other city services.

A Smarter City infrastructure whose IT systems offer APIs to citizens, communities and businesses can be accessed and adapted by them. It is the very opposite of Atlanta’s Buford Highway.

(The UK’s Open Data Institute’s 2013 Summit. The ODI promotes open data in the UK and shares best practise internationally. Photo by the ODI)

9. Open Data

The Open Data movement champions the principle that any non-sensitive data from public services and infrastructures should be freely and openly available. Most such data is not currently available in this form – either because the organisations operating those services have yet to adopt the principle, or because the computer systems they use simply were not designed to make data available.

There are many reasons to support the idea of Open Data. McKinsey estimate its economic value to be at least $3 trillion per year, for example.

But perhaps more importantly, Open Data is a fundamental tool for democracy and transparency in a digital age. Niall Firth’s November 2013 editorial for the New Scientist magazine describes how citizens of developing nations are using open data to hold their governments to account, from basic information about election candidates to the monitoring of government spending.

The “Dublinked” information sharing partnership, in which Dublin City Council, three surrounding local authorities and  service providers to the city share information and make it available to their communities as “open data”, is a good example of the benefits that openness can bring. Dublinked now makes 3,000 datasets available to local authority analysts; to researchers from IBM Research and the National University of Ireland; and to businesses, entrepreneurs and citizens. The partnership is identifying new ways for the city’s public services and transport, energy and water systems to work; and enabling the formation of new, information-based businesses with the potential to export the solutions they develop in Dublin to cities internationally. It is putting the power of technology and of city information not only at the disposal of the city authority and its agencies, but also into the hands of communities and innovators.

10. Open Standards

Open Data and Open APIs will only be widely used and effective in cities across the world if they conform to Open Standards that mean that everyone, everywhere can use them in the same way.

In order to do something as simple as changing a lightbulb, we rely on open standards for the levels of voltage and power from our electricity supply; the physical dimensions of the socket and bulb and the characteristics of their fastenings; specifications of the bulb’s light and heat output; and the tolerance of the bulb and the fitting for the levels of moisture found in bathrooms and kitchens. Cities are much more complicated than lightbulbs; and many more standards will be required on order for us to connect to and re-configure their systems easily and reliably.

Open standards are also an important tool in avoiding city systems becoming “locked-in” to any particular supplier. By specifying common characteristics that all systems are required to demonstrate, it becomes more straightforward to exchange one supplier’s implementation for another.

Some standards that Smarter City infrastructures can use are already in place – for example, Web services and REST that specify the general ways in which computer systems interact, and the Common Alerting Protocol which is more specific to interactions between systems that monitor and control the physical world. But many others will need to be invented and encouraged to spread. The City Protocol Society is one organisation seeking to develop those new standards; and the British Standards Institute recently published the first set of national standards for Smarter Cities in the UK, including a standard for the interoperability of data between Smart City systems.

(Photo of the Brixton Pound by Charlie Waterhouse)

11. Local and virtual currencies and trading systems

Local trading systems use paper or electronic currencies that are issued and accepted within a particular place or region. They influence people and businesses to spend the money that they earn locally, thereby promoting regional economic synergies.

Examples include the Bristol Pound; the Droplet smartphone payment scheme in Birmingham; and schemes based on the bartering of goods, money, time and services, such as time banking. Some schemes combine both elements – in Switzerland, a complementary currency, the Wir , has contributed to economic stability over the last century by allowing some debt repayments to be bartered locally when they cannot be repaid in universal currency.

As these schemes develop – and in particular as they adopt technologies such as smartphones and Open APIs – they are increasingly being used as an infrastructure for Smarter City projects in domains such as transport, food supply and energy.

Smarter Cities will succeed at scale when we discover the business models that convert financial payments and investments into social, economic and environmental improvements in the places where we live and work. I can’t think of a more directly applicable tool for designing those business models than flexible, locally focussed currencies and payment infrastructures.

12. Identity stores

In order to use digital services, we have to provide personal information online. What happens to that personal information once we have finished using the service?

Social networks such as Facebook regularly cause controversy when they experiment with new ways to use the data that we freely share with them; often granting them extensive rights over that data in the process.

Our use of technologies such as social media, Smartphones and APIs creates a mass of data about us that is often retained by the operators of the services we use. Sometimes this is as a result of deliberate actions:  when we share geo-tagged photos through social media, for example. In other cases, it is incidental. The location and movement of GPS sensors in our smartphones is anonymised by our network providers and aggregated with that of others nearby who are moving similarly. It is then sold to traffic information services, so that they can sell it back to us through the satellite navigation systems in our cars to help us to avoid traffic congestion.

Organisations of all types and sizes are competing for the new markets and opportunities of the information economy that are created, in part, by this increased availability of personal information. That is simply the natural consequence of the emergence of a new resource in a competitive economy. But it is also true that as the originators of much of that information, and as the ultimate stakeholders in that economy, we should seek to establish an equitable consensus between us for how our information is used.

A different approach is being taken by organisations such as MyDex. MyDex are a Community Interest Company (CIC) who have created a platform that allows users to securely share personal information with digital service providers when they need to; but to revoke access when they have finished using the service.

Incorporation as a Community Interest Company allows MyDex:

“… to be sustainable and requires it be run for community benefit. Crucially, the CIC assets and the majority of any profits must be used for the community purposes for which Mydex is established. Its assets cannot be acquired by another party to which such restrictions do not apply.”

(From the MyDex website, http://mydex.org/about/ensuring-trust/).

As a result of both the security of their technology solution and the clarity with which personal and community interests are reflected in their business model, MyDex’s platform is now being used by a variety of public sector and community organisations to offer a personal data store to the people they support.

MyDex’s approach to creating trust in the use of personal data is not the only one, but it is a good example of a business model that explicitly addresses and prioritises the interests of the individual.

(The town plan for Edinburgh’s New Town, clearly showing the grid structure that gives rise to the adaptability that it is famous for showing for the past 250 years. Image from the JR James archive)

Smart Digital Urbanism

Architects and city planners such as Kelvin Campbell, founder of the Smart Urbanism movement and Jan Gehl, who inspired the “human-scale cities” movement have been identifying the fine-grained physical characteristics of large-scale urban environments that encourage vibrant communities and successful economies through the daily activities of people, families, communities and businesses.

A good example is provided by Edinburgh’s “New Town”, regarded as a masterpiece of urban planning that has proved adaptable and successful through the economic and social changes of the past 250 years. It has frequent road crossings, junctions and side-streets that slow down traffic; provides stopping opportunities for traffic and crossing opportunities for people, encouraging businesses to thrive; and has a mixture of small and large premises for a variety of businesses to occupy.

Smarter cities will not be fairer cities unless we identify and employ technologies for building them that create similar openness and accessibility for digital services and information. That’s precisely what I think Open Data, mobile phones, virtual currencies and the other technologies I’ve described in this article can achieve.

I can’t think of a more exciting idea than using them to address the economic, social and environmental challenge of our time and to build better cities and communities for tomorrow.

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What’s the risk of investing in a Smarter City?

June 8, 2014 Leave a comment

(The two towers of the Bosco Verticale in Milan will be home to more than 10,000 plants that create shade and improve air quality. But to what degree do such characteristics make buildings more attractive to potential tenants than traditional structures, creating the potential to create financial returns to reward more widespread investment in this approach? Photo by Marco Trovo)

(Or “how to buy a Smarter City that won’t go bump in the night”)

There are good reasons why the current condition and future outlook of the world’s cities have been the subject of great debate in recent years. Their population will double from 3 billion to 6 billion by 2050; and while those in the developing world are growing at such a rate that they are challenging our ability to construct resilient, efficient infrastructure, those in developed countries often have significant levels of inequality and areas of persistent poverty and social immobility.

Many people involved in the debate are convinced that new approaches are needed to transport, food supply, economic development, water and energy management, social and healthcare, public safety and all of the other services and infrastructures that support cities.

As a consequence, analysts such as Frost & Sullivan have estimated that the market for “Smart City” solutions that exploit technology to address these issues will be $1.5trillion by 2020.

But anyone who has tried to secure investment in an initiative to apply “smart” technology in a city knows that it is not always easy to turn that theoretical market value into actual investment in projects, technology, infrastructure and expertise.

It’s not difficult to see why this is the case. Most investments are made in order to generate a financial return, but profit is not the objective of “Smart Cities” initiatives: they are intended to create economic, environmental or social outcomes. So some mechanism – an investment vehicle, a government regulation or a business model – is needed to create an incentive to invest in achieving those outcomes.

Institutions, Business, Infrastructure and Investment

Citizens expect national and local governments to use their tax revenues to deliver these objectives, of course. But they are also very concerned that the taxes they pay are spent wisely on programmes with transparent, predictable, deliverable outcomes, as the current controversy over the UK’s proposed “HS2” high speed train network and previous controversies over the effectiveness of public sector IT programmes show.

Nevertheless, the past year has seen a growing trend for cities in Europe and North America to invest in Smart Cities technologies from their own operational budgets, on the basis of their ability to deliver cost savings or improvements in outcomes.

For example, some cities are replacing traditional parking management and enforcement services with “smart parking” schemes that are reducing congestion and pollution whilst paying for themselves through increased enforcement revenues. Others are investing their allocation of central government infrastructure funds in Smart solutions – such as Cambridge, Ontario’s use of the Canadian government’s Gas Tax Fund to invest in a sensor network and analytics infrastructure to manage the city’s physical assets intelligently.

The providers of Smart Cities solutions are investing too, by implementing their services on Cloud computing platforms so that cities can pay incrementally for their use of them, rather than investing up-front in their deployment. Minneapolis, Minnesota and Montpelier, France, recently announced that they are using IBM’s Cloud-based solutions for smarter water, transport and emergency management in this way. And entrepreneurial businesses, backed by Venture Capital investment, are also investing in the development of new solutions.

However, we have not yet tapped the largest potential investment streams: property and large-scale infrastructure. The British Property Federation, for example, estimates that £14 billion is invested in the development of new property in the UK each year. For the main part, these investment streams are not currently investing  in “Smart City” solutions.

To understand why that is the case – and how we might change it – we need to understand the difference in three types of risk involved in investing in smart infrastructures compared with traditional infrastructures: construction risk; the impact of operational failures; and confidence in outcomes.

(A cyclist’s protest in 2012 about the disruption caused in Edinburgh by the overrunning construction of the city’s new tram system. Photo by Andy A)

Construction Risk

At a discussion in March of the financing of future city initiatives held within the Lord Mayor of the City of London’s “Tommorrow’s Cities” programme, Daniel Wong, Head of Infrastructure and Real Estate for Macquarie Capital Europe, said that only a “tiny fraction” – a few percent – of the investable resources of the pension and sovereign wealth funds often referred to as the “wall of money” seeking profitable long-term investment opportunities in infrastructure were available to invest in infrastructure projects that carry “construction risk” – the risk of financial loss or cost overruns during construction.

For conventional infrastructure, construction risk is relatively well understood. At the Tomorrow’s Cities event, Jason Robinson, Bechtel’s General Manager for Urban Development, said that the construction sector was well able to manage that risk on behalf of investors. There are exceptions – such as the delays, cost increases and reduction in scale of Edinburgh’s new tram system – but they are rare.

So are we similarly well placed to manage the additional “construction risk” created when we add new technology to infrastructure projects?

Unfortunately, research carried out in 2013 by the Standish Group on behalf of Computerworld suggests not. Standish Group used data describing 3,555 IT projects between 2003 and 2012 that had labour costs of at least $10 million, and found that only 6.4% were wholly successful. 52% were delivered, but cost more than expected, took longer than expected, or failed to deliver everything that was expected of them. The rest – 41.4% – either failed completely or had to be stopped and re-started from scratch. Anecdotally, we are familiar with the press coverage of high profile examples of IT projects that do not succeed.

We should not be surprised that it is so challenging to deliver IT projects. They are almost always driven by requirements that represent an aspiration to change the way that an organisation or system works: such requirements are inevitably uncertain and often change as projects proceed. In today’s interconnected world, many IT projects involve the integration of several existing IT systems operated by different organisations: most of those systems will not have been designed to support integration. And because technology changes so quickly, many projects use technologies that are new to the teams delivering them. All of these things will usually be true for the technology solutions required for Smart City projects.

By analogy, then, an IT project often feels like an exercise in building an ambitiously new style of building, using new materials whose weight, strength and stiffness isn’t wholly certain, and standing on a mixture of sand, gravel and wetland. It is not surprising that only 6.4% deliver everything they intend to, on time and on budget – though it is also disappointing that as many as 41.4% fail so completely.

However, the real insight is that the characteristics of uncertainty, risk, timescales and governance for IT projects are very different from construction and infrastructure projects. All of these issues can be managed; but they are managed in very different ways. Consequently, it will take time and experience for the cultures of IT and construction to reconcile their approaches to risk and project management, and consequently to present a confident joint approach to investors.

The implementation of Smart Cities IT solutions on Cloud Computing platforms  by their providers mitigates this risk to an extent by “pre-fabricating” these components of smart infrastructure. But there is still risk associated with the integration of these solutions with physical infrastructure and engineering systems. As we gain further experience of carrying out that integration, IT vendors, investors, construction companies and their customers will collectively increase their confidence in managing this risk, unlocking investment at greater scale.

(The unfortunate consequence of a driver who put more trust in their satellite navigation and GPS technology than its designers expected. Photo by Salmon Assessors)

Operational Risk

We are all familiar with IT systems failing.

Our laptops, notebooks and tablets crash, and we lose work as a consequence. Our television set-top boxes reboot themselves midway through recording programmes. Websites become unresponsive or lose data from our shopping carts.

But when failures occur in IT systems that monitor and control physical systems such as cars, trains and traffic lights, the consequences could be severe: damage to property, injury; and death. Organisations that invest in and operate infrastructure are conscious of these risks, and balance them against the potential benefits of new technologies when deciding whether to use them.

The real-world risks of technology failure are already becoming more severe as all of us adopt consumer technologies such as smartphones and social media into every aspect of our lives (as the driver who followed his satellite navigation system off the roads of Paris onto the pavement, and then all the way down the steps into the Paris Metro, discovered).

The noted urbanist Jane Jacobs defined cities by their ability to provide privacy and safety amongst citizens who are usually strangers to each other; and her thinking is still regarded today by many urbanists as the basis of our understanding of cities. As digital technology becomes more pervasive in city systems, it is vital that we evolve the policies that govern digital privacy to ensure that those systems continue to support our lives, communities and businesses successfully.

Google’s careful exploration of self-driving cars in partnership with driver licensing organisations is an example of that process working well; the discovery of a suspected 3D-printing gun factory in Manchester last year is an example of it working poorly.

These issues are already affecting the technologies involved in Smart Cities solutions. An Argentinian researcher recently demonstrated that traffic sensors used around the world could be hacked into and caused to create misleading information. At the time of installation it was assumed that there would never be a motivation to hack into them and so they were configured with insufficient security. We will have to ensure that future deployments are much more secure.

Conversely, we routinely trust automated technology in many aspects of our lives – the automatic pilots that land the planes we fly in, and the anit-lock braking systems that slow and stop our cars far more effectively than we are able to ourselves.

If we are to build the same level of trust and confidence in Smart City solutions, we need to be open and honest about their risks as well as their benefits; and clear how we are addressing them.

(Cars from the car club “car2go” ready to hire in Vancouver. Despite succeeding in many cities around the world, the business recently withdrew from the UK after failing to attract sufficient customers to two pilot deployments in London and Birmingham. The UK’s cultural attraction of private car ownership has proved too strong at present for a shared ownership business model to succeed. Photo by Stephen Rees).

Outcomes Risk

Smart infrastructures such as Stockholm’s road-use charging scheme and London’s congestion charge were constructed in the knowledge that they would be financially sustainable, and with the belief that they would create economic and environmental benefits. Subsequent studies have shown that they did achieve those benefits, but data to predict them confidently in advance did not exist because they were amongst the first of their kind in the world.

The benefits of “Smart” schemes such as road-use charging and smart metering cannot be calculated deterministically in advance because they depend on citizens changing their behaviour – deciding to ride a bus rather than to drive a car; or deciding to use dishwashers and washing machines overnight rather than during the day.

There are many examples of Smart Cities projects that have successfully used technology to encourage behaviour change. In a smart water meter project in Dubuque, for example, households were given information that told them whether their domestic appliances were being used efficiently, and alerted to any leaks in their supply of water. To a certain extent, households acted on this information to improve the efficiency of their water usage. But a control group who were also given a “green points” score telling them how their water conservation compared to that of their near neighbours were found to be twice as likely to take action to improve their efficiency.

However, these techniques are notoriously difficult to apply successfully. A recycling scheme that adopted a similar approach found instead that it lowered recycling rates across the community: households who learned that they were putting more effort into recycling than their neighbours asked themselves “if my neighbours aren’t contributing to this initiative, then why should I?”

The financial vehicles that enable investment in infrastructure and property are either government-backed instruments that reward economic and social outcomes such as reductions in carbon footprint or the creation of jobs ; or market-based instruments  based on the creation of direct financial returns.

So are we able to predict those outcomes confidently enough to enable investment in Smart Cities solutions?

I put that question to the debating panel at the Tomorrow’s Cities meeting. In particular, I asked whether investors would be willing to purchase bonds in smart metering infrastructures with a rate of return dependent on the success of those infrastructures in encouraging consumers to  reduce their use of water and energy.

The response was a clear “no”. The application of those technologies and their effectiveness in reducing the use of water and electricity by families and businesses is too uncertain for such investment vehicles to be used.

Smart Cities solutions are not straightforward engineering solutions such as electric vehicles whose cost, efficiency and environmental impacts can be calculated in a deterministic way. They are complex socio-technical systems whose outcomes are emergent and uncertain.

Our ability to predict their performance and impact will certainly improve as more are deployed and analysed, and as University researchers, politicians, journalists and the public assess them. As that happens, investors will be more willing to fund them; or, with government support, to create new financial vehicles that reward investment in initiatives that use smart technology to create social, environmental and economic improvements – just as the World Bank’s Green Bonds, launched in 2008, support environmental schemes today.

(Recycling bins in Curitiba, Brazil. As Mayor of Curitaba Jaime Lerner started one of the world’s earliest and most effective city recycling programmes by harnessing the enthusiasm of children to influence the behaviour of their parents. Lerner’s many initiatives to transform Curitaba have the characteristic of entrepreneurial leadership. Photo by Ana Elisa Ribeiro)

Evidence and Leadership

The evidence base need to support new investment vehicles is already being created. In Canada, for example, a collaboration between Canadian insurers and cities has developed a set of tools to create a common understanding of the financial risk created by the effects of climate change on the resilience of city infrastructures.

More internationally, the “Little Rock Accord” between the Madrid Club of former national Presidents and Prime Ministers and the P80 group of pension funds agreed to create a task force to increase the degree to which pension and sovereign wealth funds invest in the deployment of technology to address climate change issues, shortages in resources such as energy, water and food, and sustainable, resilient growth. My colleague the economist Mary Keeling has been working for IBM’s Institute for Business Value to more clearly analyse and express the benefits of Smart approaches – in water management and transportation, for example. And Peter Head’s Ecological Sequestration Trust and Robert Bishop’s International Centre for Earth Simulation are both pooling international data and expertise to create models that explore how more sustainable cities and societies might work.

But the Smart City programmes which courageously drive the field forward will not always be those that demand a complete and detailed cost/benefit analysis in advance. Writing in “The Plundered Planet”, the economist Paul Collier asserts that any proposed infrastructure of reasonable novelty and significant scale is effectively so unique – especially when considered in its geographic, political, social and economic context – that an accurate cost/benefit case simply cannot be constructed.

Instead, initiatives such as London’s congestion charge and bicycle hire scheme, Sunderland’s City Cloud and Bogota’s bikeways and parks were created by courageous leaders with a passionate belief that they could make their cities better. As more of those leaders come to trust technology and the people who deliver it, their passion will be another force behind the adoption of technology in city systems and infrastructure.

What’s the risk of not investing in a Smarter City?

For at least the last 50 years, we have been observing that life is speeding up and becoming more complicated. In his 1964 work “Notes on the Synthesis of Form“, the town planner Christopher Alexander wrote:

“At the same time that the problems increase in quantity, complexity and difficulty, they also change faster than ever before. New materials are developed all the time, social patterns alter quickly, the culture itself is changing faster than it has ever changed before … To match the growing complexity of problems, there is a growing body of information and specialist experience … [but] not only is the quantity of information itself beyond the reach of single designers, but the various specialists who retail it are narrow and unfamiliar with the form-makers’ peculiar problems.”

(Alexander’s 1977 work “A Pattern Language: Towns, Buildings, Construction” is one of the most widely read books on urban design; it was also an enormous influence on the development of the computer software industry).

The physicist Geoffrey West has shown that this process is alive and well in cities today. As the world’s cities grow, life in them speeds up, and they create ideas and wealth more rapidly, leading to further growth. West has observed that, in a world with constrained resources, this process will lead to a catastrophic failure when demand for fresh water, food and energy outstrips supply – unless we change that process, and change the way that we consume resources in order to create rewarding lives for ourselves.

There are two sides to that challenge: changing what we value; and changing how we create what we value from the resources around us.

(...)

(“Makers” at the Old Print Works in Balsall Heath, Birmingham, sharing the tools, skills, contacts and ideas that create successful small businesses in local communities)

The Transition movement, started by Rob Hopkins in Totnes in 2006, is tackling both parts of that challenge. “Transition Towns” are communities who have decided to act collectively to transition to a way of life which is less resource-intensive, and to value the characteristics of such lifestyles in their own right – where possible trading regionally, recycling and re-using materials and producing and consuming food locally.

The movement does not advocate isolation from the global industrial economy, but it does advocate that local, alternative products and services in some cases can be more sustainable than mass-produced commodities; that the process of producing them can be its own reward; and that acting at community level is for many people the most effective way to contribute to sustainability. From local currencies, to food-trading networks to community energy schemes, many “Smart” initiatives have emerged from the transition movement.

We will need the ideas and philosophy of Transition to create sustainable cities and communities – and without them we will fail. But those ideas alone will not create a sustainable world. With current technologies, for example, one hectare of highly fertile, intensively farmed land can feed 10 people. Birmingham, my home city, has an area of 60,000 hectares of relatively infertile land, most of which is not available for farming at all; and a population of around 1 million. Those numbers don’t add up to food self-sufficiency. And Birmingham is a very low-density city – between one-half and one-tenth as dense as the growing megacities of Asia and South America.

Cities depend on vast infrastructures and supply-chains, and they create complex networks of transactions supported by transportation and communications. Community initiatives will adapt these infrastructures to create local value in more sustainable, resilient ways, and by doing so will reduce demand. But they will not affect the underlying efficiency of the systems themselves. And I do not personally believe that in a world of 7 billion people in which resources and opportunity are distributed extremely unevenly that community initiatives alone will reduce demand significantly enough to achieve sustainability.

We cannot simply scale these systems up as the world’s population grows to 9 billion by 2050, we need to change the way they work. That means changing the technology they use, or changing the way they use technology. We need to make them smarter.

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The sharing economy and the future of movement in smart, human-scale cities

November 12, 2013 15 Comments

("Visionary City" by William Robinson Leigh)

(William Robinson Leigh’s 1908 painting “Visionary City” envisaged future cities constructed from mile-long buildings of hundreds of stories connected by gas-lit skyways for trams, pedestrians and horse-drawn carriages. A century later we’re starting to realise not only that developments in transport and power technology have eclipsed Leigh’s vision, but that we don’t want to live in cities constructed from buildings on this scale.)

One of the defining tensions throughout the development of cities has been between our desire for quality of life and our need to move ourselves and the things we depend on around.

The former requires space, peace, and safety in which to work, exercise, relax and socialise; the latter requires transport systems which, since the use of horsedrawn transport in medieval cities, have taken up space, created noise and pollution – and are often dangerous. Enrique Penalosa, whose mayorship of Bogota was defined by restricting the use of car transport, often refers to the tens of thousands of children killed by cars on the world’s roads every year and his astonishment that we accept this as the cost of convenient transport.

This tension will intensify rapidly in coming years. Not only are our cities growing larger and denser, but according to the analysis of city systems by Professors Geoffrey West and Louis Bettencourt of the Los Alamos National Laboratory and Professor Ian Robertson’s study of human behaviour, our interactions within them are speeding up and intensifying.

Arguably, over the last 50 years we have designed cities around large-scale buildings and transport structures that have supported – and encouraged – growth in transport and the size of urban economies and populations at the expense of some aspects of quality of life.

Whilst standards of living across the world have improved dramatically in recent decades, inequality has increased to an even greater extent; and many urbanists would agree that the character of some urban environments contributes significantly to that inequality. In response, the recent work of architects such as Jan Gehl and Kelvin Campbell, building on ideas first described by Jane Jacobs in the 1960s, has led to the development of the “human scale cities” movement with the mantra “first life, then space, then buildings”.

The challenge at the heart of this debate, though, is that the more successful we are in enabling human-scale value creation; the more demand we create for transport and movement. And unless we dramatically improve the impact of the systems that support that demand, the cities of the future could be worse, not better, places for us to live and work in.

Human scale technology creates complexity in transport

As digital technology pervades every aspect of our lives, whether in large-scale infrastructures such as road-use charging systems or through the widespread adoption of small-scale consumer technology such as smartphones and social media, we cannot afford to carry out the design of future cities without considering it; nor can we risk deploying it without concern for its affect on the quality of urban life.

Digital technologies do not just make it easier for us to communicate and share information wherever we are: those interactions create new opportunities to meet in person and to exchange goods and services; and so they create new requirements for transport. And as technologies such as 3D printing, open-source manufacturing and small-scale energy generation make it possible to carry out traditionally industrial activities at much smaller scales, some existing bulk movement patterns will be replaced by thousands of smaller, peer-to-peer interactions created by transactions in online marketplaces. We can already see the effects of this trend in the vast growth of traffic delivering goods that are purchased or exchanged online.

Estimates of the size of this “sharing economy“, defined by Wikipedia as “economic and social systems that enable shared access to goods, services, data and talent“, vary widely, but are certainly significant. The UK Economist magazine reports one estimate that it is a $26 billion economy already, whilst 2 Degrees Network report that just one aspect of it – small-scale energy generation – could save UK businesses £33 billion annually by 2030Air B’n’B – a peer-to-peer accommodation service – reported recently that they had contributed $632 million in value to New York’s economy in 2012 by enabling nearly 5,000 residents to earn an average of $7,500 by renting their spare rooms to travellers; and as a consequence of those travellers additionally spending an average of $880 in the city during their stay. The emergence in general of the internet as a platform for enabling sales, marketing and logistics for small and micro-businesses is partly responsible for a significant rise in self-employment and “micro-entrepreneurial” enterprises over the last few years, which now account for 14% of the US economy.

Digital technology will create not just great growth in our desire to travel and move things, but great complexity in the way we will do so. Today’s transport technologies are not only too inefficient to scale to our future needs; they’re not sophisticated and flexible enough to cope with the complexity and variety of demand.

Many of the future components of transport systems have already been envisaged, and deployed in early schemes: elevated cycleways; conveyor belts for freight; self-driving vehicles and convoys; and underground pneumatic networks for recycling. And to some extent, we have visualised the cities that they will create: Professor Miles Tight, for example, has considered the future living scenarios that might emerge from various evolutions of transport policy and human behavioural choices in the Visions 2030 project.

The task for the Smarter Cities movement should be to extend this thinking to envision the future of cities that are also shaped by emerging trends in digital technology and their effect on the wider economy and social systems. We won’t do that successfully by considering these subjects separately or in the abstract; we need to envision how they will collectively enable us to live and work from the smallest domestic scale to the largest city system.

(Packages from Amazon delivered to Google’s San Francisco office. Photo by moppet65535)

What we’ll do in the home of the future

Rather than purchasing and owning goods such as kitchen utensils, hobby and craft items, toys and simple house and garden equipment, we will create them on-demand using small-scale and open-source manufacturing technology and smart-materials. It will even be possible – though not all of us will choose to do so – to manufacture some food in this way.

Conversely, there will still be demand for handmade artisan products including clothing, gifts, jewellery, home decorations, furniture, and food. Many of us will earn a living producing these goods in the home while selling and marketing them locally or through online channels.

So we will leave our home of the future less often to visit shops; but will need not just better transport services to deliver the goods we purchase online to our doorsteps, but also a new utility to deliver the raw materials from which we will manufacture them ourselves; and new transport services to collect the products of our home industries and to deliver supplies to them.

We will produce an increasing amount of energy at home; whether from existing technologies such as solar panels or combined heat and power (CHP) systems; or through new techniques such as bio-energy. The relationships between households, businesses, utilities and transportation will change as we become producers of energy and consumers of waste material.

And whilst remote working means we will continue to be less likely to travel to and from the same office each day, the increasing pace of economic activity means that we will be more likely to need to travel to many new destinations as it becomes necessary to meet face to face with the great variety of customers, suppliers, co-workers and business partners with whom online technologies connect us.

What we’ll do in the neighbourhoods of the future

As we increasingly work remotely from within our homes or by travelling far away from them, less of us work in jobs and for businesses that are physically located within the communities in which we live; and some of the economic ties that have bound those communities in the past have weakened. But most of us still feel strong ties to the places we live in; whether they are historical, created by the character of our homes or their surrounding environment, or by the culture and people around us. These ties create a shared incentive to invest in our community.

Perhaps the greatest potential of social media that we’re only begin to exploit is its power to create more vibrant, sustainable and resilient local communities through the “sharing economy”.

The motivations and ethics of organisations participating in the sharing economy vary widely – some are aggressively commercial, whilst others are “social enterprises” with a commitment to reinvest profits in social growth. The social enterprise sector, comprised of mutuals, co-operatives, employee-owned businesses and enterprises who submit to “triple bottom line” accounting of financial, social and environmental capital, is about 15% of the value of most economies, and has been growing and creating jobs faster than traditional business since the 2008 crash. There is enormous potential for cities to achieve their “Smarter” objectives for sustainable, equitably distributed economic growth through contributions from social enterprises using technology to implement sharing economy business models within their region.

Sharing economy models which enable transactions between participants within a walkable or cyclable area can be a particularly efficient mechanism for collaboration, as the related transport can be carried out using human power. Joan Clos, Exective Director of UN-Habitat, has asserted that cities will only become sustainable when they are built at a sufficient population density that a majority of interactions within them can be carried out in this way (as reported informally by Tim Stonor from Dr. Clos’s remarks at the “Urban Planning for City Leaders” conference at the Crystal, London in 2012).

The Community Lovers’ Guide has published stories from across Europe of people who have collaborated to make the places that they share better, often using technology; and schemes such as Casserole Club and Land Share are linking the supply and demand of land, food, gardening and cooking skills within local communities, helping neighbours to help each other. At local, national and international levels, sharing economy ideas are creating previously unrealised social and economic value, including access to employment opportunities that replace some of those traditional professions that are shrinking as the technology used by industrial business changes.

Revenue-earning businesses are a necessary component of vibrant communities, at a local neighbourhood scale as well as city-wide. At the Academy of Urbanism Congress in Bradford this year, Michael Ward, Chair of the Centre for Local Economic Strategies, asserted that “the key task facing civic leaders in the 21st Century is this: how, in a period of profound and continuing economic changes, will our citizens earn a living and prosper?”

(“Makers” at the Old Print Works in Balsall Heath, Birmingham, sharing the tools, skills and ideas that create successful small businesses)

So whilst we work remotely from direct colleagues, we may chose to work in a collaborative workspace with near neighbours, with whom we can exchange ideas, make new contacts and start new enterprises and ventures. As the “maker” economy emerges from the development of sophisticated, small-scale manufacturing, and the resurgence in interest in artisan products, community projects such as the Old Print Works in Balsall Heath, Birmingham are emerging in low-cost ex-industrial space as people come together to share the tools and expertise required to make things and run businesses.

We will also manage and share our use of resources such as energy and water at neighbourhood scale. The scale and economics of movement of the raw materials for bio-energy generation, for example, currently dictate that neighbourhood-scale generation facilities – as opposed to city-wide, regional or domestic scale – are the most efficient. Aston University’s European Bio-Energy Research Institute is demonstrating these principles in the Aston district of Birmingham. And schemes from the sustainability pilot in Dubuque, Iowa to the Energy Sharing Co-operative in the West Midlands of the UK and the Chale community project on the Isle of Wight have shown that community-scale schemes can create shared incentives to use resources more efficiently.

One traditional centre of urban communities, the retail high street or main street, has fared badly in recent times. The shift to e-commerce, supermarkets and out-of-town shopping parks has led to many of them loosing footfall and trade, and seeing “payday lenders“, betting shops and charity shops take the place of traditional retailers.

High streets needs to be freed from the planning, policy and tax restrictions that are preventing their recovery. The retail-dominated highstreet of the 20th century emerged from a particular and temporary period in the evolution of the private car as the predominant form of transport supporting household-scale economic transactions. Developments in digital and transport technology as well as economy and society have made it non-viable in its current form; but legislation that prevents change in the use of highstreet property, and that keeps business taxes artificially high, is preventing highstreets from adapting in order to benefit from technology and the opportunities of the sharing economy.

Business Improvement Districts, already emerging in the UK and US to replace some local authority services, offer one way forward. They need to be given more freedom to allow the districts they manage to develop as best meets the economic and social needs of their area according to the future, not the past. And they need to become bolder: to invest in the same advanced technology to maximize footfall and spend from their customers as shopping malls do on behalf of their tenants, as recommended by a recent report to UK Government on the future of the high street.

The future high street will not be a street of clothes shops, bookshops and banks: some of those will still exist, but the high street will also be a place for collaborative workers; for makers; for sharing and exchanging; for local food produce and artisan goods; for socialising; and for starting new businesses. We will use social media to share our time and our resources in the sharing economy; and will meet on the high street when those transactions require the exchange of physical goods and services. We will walk and cycle to local shops and transport centres to collect and deliver packages for ourselves, or for our neighbours.

The future of work, life and transport at city-scale

Whilst there’s no universally agreed definition, an urban areas is generally agreed to be a continuously built-up area with a total population of between 2,000 and 40 million people; living at a density of around 1,000 per square kilometre; and employed primarily in non-agricultural activities (the appendices to the 2007 revision of the UN World Urbanisation Prospects summarise such criteria from around the world; 38.7 million is estimated to be the population of the world’s largest city, Tokyo, in 2025 by the UN World Urbanisation Prospects 2011).

(An analysis based on GPS data from mobile phones of end-to-end journeys undertaken by users of Abidjan’s bus services. By comparing existing bus routes to end-to-end journey requirements, the analysis identified four new bus routes and led to changes in many others. As a result, 22 routes now show increased ridership, and city-wide journey times have decreased by 10%.)

That is living at an industrial scale. The sharing economy may be a tremendously powerful force, but – at least for the foreseeable future – it will not scale to completely replace the supply chains that support the needs of such enormous and dense populations.

Take food, for example. One hectare of highly fertile, intensively farmed land can feed 10 people. Birmingham, my home city, has an area of 60,000 hectares of relatively infertile land, most of which is not available for farming at all; and a population of around 1 million. Those numbers don’t add up to food self-sufficiency; and Birmingham is a very low-density city – between one-half and one-tenth as dense as the growing megacities of Asia and South America.

Until techniques such as vertical farming and laboratory-grown food become both technically and economically viable, and culturally acceptable – if they ever do – cities will not feed themselves. And these techniques hardly represent locally-grown food exchanged between peers – they are highly technical and likely to operate initially at industrial scale. Sharing economy businesses such as Casserole Club, Kitchen Surfing, and Big Barn will change the way we distribute, process and prepare food within cities, but many of the raw materials will continue to be grown and delivered to cities through the existing industrial-scale distribution networks that import them from agricultural regions.

We are drawn to cities for the opportunities they offer: for work, for entertainment, and to socialise. As rapidly as technology has improved our ability to carry out all of those activities online, the world’s population is still increasingly moving to cities. In many ways, technology augments the way we carry out those activities in the real world and in cities, rather than replacing them with online equivalents.

Technology has already made cultural events in the real world more frequent, accessible and varied. Before digital technology, the live music industry depended on mass-marketing and mass-appeal to create huge stadium-selling tours for a relatively small number of professional musicians; and local circuits were dominated by the less successful but similar-sounding acts for which sufficiently large audiences could be reached using the media of the time. I attempted as an amateur musician in the pre-internet 1990s to find a paying audience for the niche music I enjoyed making: I was not successful. Today, social media can be used to identify and aggregate demand to make possible a variety of events and artforms that would never previously have reached an audience. Culture in the real-world is everywhere, all the time, as a result, and life is the richer for it. We discover much of it online, but often experience it in the real world.

(Birmingham’s annual “Zombie Walk” which uses social media to engage volunteers raising money for charity. Photo by Clare Lovell).

Flashmobs” use smartphones and social media to spontaneously bring large numbers of people together in urban spaces to celebrate; socialise or protest; and while we will play and tell stories in immersive 3D worlds in the future – whether we call them movies, interactive fiction or “massive multi-player online role-playing games” – we’ll increasingly do so in the physical world too, in “mixed reality” games. Technologies such as Google Glasscognitive computing and Brain/Computer Interfaces will accelerate these trends as they remove the barrier between the physical world and information systems.

We will continue to come to city centres to experience those things that they uniquely combine: the joy and excitement of being amongst large numbers of people; the opportunity to share ideas; access to leading-edge technologies that are only economically feasible at city-scale; great architecture, culture and events; the opportunity to shop, eat, drink and be entertained with friends. All of these things are possible anywhere; but it is only in cities that they exist together, all the time.

The challenge for city-scale living will be to support the growing need to transport goods and people into, out of and around urban areas in a way that is efficient and productive, and that minimises impact on the liveability of the urban environment. In part this will involve reducing the impact of existing modes of transport by switching to electric or hydrogen power for vehicles; by predicting and optimising the behaviour of traffic systems to prevent congestion; by optimising public transport as IBM have helped AbidjanDublin, Dubuque and Istanbul to do; and by improving the spatial organisation of transport through initiatives such as Arup’s Regent Street delivery hub.

We will also need new, evolved or rejuvenated forms of transport. In his lecture for the Centenary of the International Federation for Housing and Planning, Sir Peter Hall spoke eloquently of the benefits of Bus Rapid Transit systems, urban railways and trams. All can combine the speed and efficiency of rail for bringing goods and people into cities quickly from outlying regions, with the ability to stop frequently at the many places in cities which are the starting and finishing points of end-to-end journeys.

Vehicle journeys on major roads will be undertaken in the near future by automated convoys travelling safely at a combined speed and density beyond the capability of human drivers. Eventually the majority of journeys on all roads will be carried out by such autonomous vehicles. Whilst it is important that these technologies are developed and introduced in a way that emphasises safety, the majority of us already trust our lives to automated control systems in our cars – every time we use an anti-lock braking system, for example. We will still drive cars for fun, pleasure and sport in the future – but we will probably pay dearly for the privilege; and our personal transport may more closely resemble the rapid transit pods that can already be seen at Heathrow Terminal 5.

Proposals intended to accelerate the adoption of autonomous vehicles include the “Qwik lane” elevated highway for convoy traffic; or the “bi-modal glideway” and “tracked electric vehicle” systems which could allow cars and lorries to travel at great speed safely along railway networks or dedicated “tracked” roads. Alternative possibilities which could achieve similar levels of efficiency and throughput are to extend the use of conveyor belt technology – already recognised as far more efficient than lorries for transporting resources and goods over distances of tens of miles in quarries and factories – to bring freight in and out of cities; or to use pneumatically powered underground tunnel networks, which are already being used in early schemes for transporting recyclable waste in densely populated areas. Elon Musk, the inventor of the Tesla electric supercar, has even suggested that a similar underground “vacuum loop” could be used to replace long-distance train and air travel for humans, at speeds over 1000 kilometres per hour.

The majority of these transport systems won’t offer us as individuals the same autonomy and directness in our travel as we believe the private car offers us today – even though that autonomy is often severely restricted by traffic congestion and delays. Why will we chose to relinquish that control?

(Optimod's vision for integrated, predictive mobile, multi-modal transport information)

(Optimod‘s vision for integrated, predictive mobile, multi-modal transport information)

Some of us will simply prefer to, finding different value in other ways to get around.

Walking and cycling are gaining in popularity over driving in many cities. I’ve personally found it a revelation in recent years to walk around cities rather than drive around them as I might previously have done. Cities are interesting and exciting places, and walking is often an enjoyable as well as efficient way of moving about them. (And for urbanists, of course, walking offers unparalleled opportunities to understand cities). Many of us are also increasingly conscious of the health benefits of walking and cycling, particularly as recent studies in the UK and US have shown that adults today will be the first generation in recorded history to die younger than their parents because of our poor diets and sedentary lifestyles.

Alternatively, we may choose to travel by public transport in the interests of productivity – reading or working while we travel, especially as network coverage for telephony and the internet improves. As the world’s population and economies grow, competition and the need to improve productivity will lead more and more of us to this take this choice.

It is increasingly easy to walk, cycle, or use public or shared transport to travel into and around cities thanks to the availability of bicycle hire schemes, car clubs and walking route information services such as walkit.com. The emergence of services that provide instant access to travel information across all forms of transport – such as the Moovel service in Germany or the Optimod service in Lyon, France – will enhance this usability, making it easier to combine different forms of transport into a single journey, and to react to delays and changes in plans whilst en route.

Legislation will also drive changes in behaviour, from national and international initiatives such as the European Union legislation limiting carbon emissions of cars to local planning and transport policies – such as Birmingham’s recent Mobility Action Plan which announced a consultation to consider closing the city’s famous system of road tunnels.

(Protesters at Occupy Wallstreet using digital technology to coordinate their demonstration. Photo by David Shankbone)

Are we ready for the triumph of the digital city?

Regardless of the amazing advances we’re making in online technology, life is physical. Across the world we are drawn to cities for opportunity; for life-support; to meet, work and live.  The ways in which we interact and transport ourselves and the goods we exchange have changed out of all recognition throughout history, and will continue to do so. The ever increasing level of urbanisation of the world’s population demonstrates that there’s no sign yet that those changes will make cities redundant: far from it, they are thriving.

It is not possible to understand the impact on our lives of new ideas in transport, technology or cities in isolation. Unless we consider them together and in the context of changing lifestyles, working patterns and economics, we won’t design and build cities of the future to be resilient, sustainable, and equitable.  The limitation of our success in doing that in the past is illustrated by the difference in life expectancy of 20 years between the richest and poorest areas of UK cities; the limitation of our success in doing so today is illustrated by the fact that a huge proportion of the world’s population does not have access to the digital technologies that are changing our world.

I recently read the masterplan for a European city district regarded as a good example of Smart City thinking. It contained many examples of the clever and careful design of physical space for living and for today’s forms of transport, but did not refer at all to the changes in patterns of work, life and movement being driven by digital technology. It was certainly a dramatic improvement over some plans of the past; but it was not everything that a plan for the future needs to be. 

Across domains such as digital technology, urban design, public policy, low carbon engineering, economic development and transport we have great ideas for addressing the challenges that urbanisation, population growth, resource constraints and climate change will bring; but a lot of work to do in bringing them together to create good designs for the liveable cities of the future.

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Three mistakes we’re still making about Smart Cities

October 10, 2013 7 Comments

(David Willets, MP, Minister for Universities and Science, launches the UK Government’s Smart Cities Forum)

(I was asked this week to contribute my view of the present state of the Smart Cities movement to the UK Government’s launch of it’s Smart Cities forum, which will report to the Government’s Information Economy Council. This article is based on my remarks at the event).

One measure of how successfully we have built today’s cities using the technologies that shaped them over the last century – concrete, steel and the internal combustion engine – is the variation of life expectancy within them. In the UK, people born in the poorest areas of our large cities can expect to live lives that are two decades shorter than those born in the wealthiest areas.

We need to do much better than that as we apply the next generation of technology that will shape our lives – digital technology.

The market for Smart Cities, which many define as the application of digital technology to city systems, is growing. Entrepreneurial businesses such as Droplet and Shutl are delivering new city services, enabled by technology. City Councils, service providers and transport authorities are investing in Smart infrastructures, such as Bradford’s City Park, whose fountains and lights react to the movements of people through it. Our cities are becoming instrumented, interconnected and intelligent, creating new opportunities to improve the performance and efficiency of city systems.

But we are still making three mistakes that limit the scale at which truly innovative Smart City projects are being deployed.

1. We don’t use the right mix of skills to define Smart City initiatives

Over the last year, I’ve seen a much better understanding develop between some of the creative professions in the Smart Cities domain: technologists, design thinkers, social innovators, entrepreneurs and urban designers. Bristol’s “Hello Lamppost” is a good example of a project that uses technology to encourage playful interaction with an urban environment, thereby bringing the life to city streets that the urbanist Jane Jacobs‘ taught us is so fundamental to healthy city communities.

Internationally, cities have a great opportunity to learn from each others’ successes: smart, collective, sustainable urbanism in Scandinavia, as exemplified by Copenhagen’s Nordhavnen district; intelligent city planning and management in Asia and increasingly in the United States, where cities such as Chicago have also championed the open data movement; and the phenomenal level of small-scale, non-institutional innovation in communities in UK cities.

But this debate does not extend to some important institutions that are also beginning to explore how they can contribute towards the social and environmental wellbeing of cities and communities. Banks and investors, for example, who have the funds to support large-scale initiatives, or the skills to access them; or supermarkets and other retailers who operate across cities, nations and continents; but whose operational and economic footprint in cities is significant, and whose supply chains support or contribute to billions of lives.

It’s important to engage with these institutions in defining Smart City initiatives which not only cut across traditional silos of responsibility and budgets in cities, but also cut across the traditional asset classes and revenue streams that investors understand. A Smart City initiative that is crafted without their involvement will be difficult for them to understand, and they will be unlikely to support it. Instead, we need to craft Smart initiatives with them.

(The masterplan for Copenhagen’s regeneration of Nordhavnen, which was co-created with local residents and communities. Photo by Thomas Angermann)

2. We ask researchers to answer the wrong challenges

University research is a great source of new technologies for creating Smart solutions. But our challenge is rarely the availability of new technology – we have plenty of that already.

The real challenge is that we are not nearly exploiting the full potential of the technology already available to us; and that’s because in many cases we do not have a quantified evidence base for the financial, social, economic and environmental benefits of applying technology in city systems. Without that evidence, it’s hard to create a business case to justify investment.

This is the really valuable contribution that research could make to the Smart Cities market today: quantify the benefits of applying technology in city systems and communities; identify the factors that determine the degree to which those benefits can be realised in specific cities and communities; align the benefits to the financial and operating models of the public and private institutions that operate city services and assets; and provide the detailed data from which clear businesses cases with quantified risks and returns can be constructed.

3. We don’t listen to the quiet voices that matter

It’s my experience that the most powerful innovations that make a difference to real lives and communities occur when “little things” and “big things” work well together.

Challenges such as transport congestion, social mobility, responsible energy usage or small business growth are often extremely specific to local contexts. Successful change in those contexts is usually created when the people, community groups and businesses involved create, or co-create, initiatives to improve them.

But often, the resources available locally to those communities are very limited. How can the larger resources of institutional organisations be made available to them?

In “Resilience: why things bounce back“, Andrew Zolli describes many examples of initiatives that have successfully created meaningful change; and characterises the unusual qualities of the “translational leaders” that drive them – people who can engage with both small-scale, informal innovation in communities and large-scale, formal institutions with resources.

It’s my hope that we can enable more widespread changes not by relying only on such rare individuals, but by changing the way that we think about the design of city infrastructures. Rather than designing the services that they deliver, we should design what Service Scientists call the “affordances” they offer. An affordance is a capability of an infrastructure that can be adapted to the needs of an individual.

An example might be a smart grid power infrastructure that provides an open API allowing access to data from the grid. Developers, working together with community groups, could create schemes specific to each community which use that information to encourage more responsible energy usage. My colleagues in IBM Research explored this approach in partnership with the Sustainable Dubuque partnership resulting in a scheme that improved water and energy conservation in the city.

We can also apply this approach to the way that food is supplied to cities. The growing and distribution of food will always be primarily a large-scale, industrial operation: with 7 billion people living on a planet with limited resources, and with more than half of them living in dense cities, there is no realistic alternative. An important challenge for the food production and distribution industry, and for the technology industry, is to find ways to make those systems more efficient and sustainable.

But we can also act locally to change the way that food is processed, prepared and consumed; and in doing so create social capital and economic opportunity in some of the places that need it most. A good example is “Casserole Club“, which uses social media as the basis of a peer-to-peer model which connects people who are unable to cook for themselves with people who are willing to cook for, and visit, others.

These two movements to improve our food systems in innovative ways currently act separately; what new value could we create by bringing them together?

We’re very poor at communicating effectively between such large-scale and small-scale activities. Their cultures are different; they use different languages, and those involved spend their working lives in systems focussed on very different objectives.

There’s a very simple solution. We need to listen more than we talk.

We all have strong opinions and great ideas. And we’re all very capable of quickly identifying the aspects of someone else’s idea that mean it won’t work. For all of those reasons, we tend to talk more than we listen. That’s a mistake; it prevents us from being open to new ideas, and focussing our attention on how we can help them to succeed.

New conversations

By coincidence, I was asked earlier this year to arrange the agenda for the annual meeting of IBM’s UK chapter of our global Academy of Technology. The Academy represents around 500 of IBM’s technology leaders worldwide; and the UK chapter brings 70 or so of our highest achieving technologists together every year to share insights and experience about the technology trends that are most important to our industry, and to our customers.

(Daden's visualisation of the new Library of Birmingham, created before construction started and used to familiarise staff with the new building they would be working in. Taken from Daden's brochure describing the work more fully).

(Daden’s visualisation of the new Library of Birmingham, created before construction started and used to familiarise staff with the new building they would be working in. Taken from Daden’s brochure describing the work more fully).

This year, I’m bringing them to Innovation Birmingham for two days next week to explore how technology is changing Britain’s second city. We’ll be hearing about Birmingham City Council’s Smart City Strategy and Digital Birmingham‘s plans for digital infrastructure; and from research initiatives such as the University of Birmingham’s Liveable Cities programme; Aston University’s European Bio-Energy Research Institute; and Birmingham City University’s European Platform for Intelligent Cities.

But we’ll also be hearing from local SMEs and entrepreneurs creating innovations in city systems using technology, such as Droplet‘s smartphone payment system; 3D visualisation and analytics experts Daden, who created a simulation of Birmingham’s new Library; and Maverick Television whose innovations in using technology to create social value include the programmes Embarrassing Bodies and How to Look Good Naked. And we’ll hear from a number of social innovators, such as Localise West Midlands, a not-for-profit think-tank which promotes localisation for social, environmental and economic benefit, and Hub Launchpad, a business-accelerator for social enterprise who are building their presence in the city. You can follow our discussions next week on twitter through the hashtag #IBM_TCG.

This is just one of the ways I’m trying to make new connections and start new conversations between stakeholders in cities and professionals with the expertise to help them achieve their goals. I’m also arranging to meet some of the banks, retailers and supply-chain operators who seem to be most focussed on social and environmental sustainability, in order to explore how those objectives might align with the interests of the cities in which they operate. The British Standards Institute is undertaking a similar project to explore the financing of Smart Cities as part of their Smart Cities programme. I’m also looking at the examples set by cities such as Almere whose collaborative approach to urban design, augmented by their use of analytics and technology, is inspirational.

This will not be a quick or easy process; but it will involve exciting conversations between people with passion and expertise. Providing we remember to listen as much as we talk, it’s the right place to start.

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Can Smarter City technology measure and improve our quality of life?

September 24, 2013 11 Comments

(Photo of Golden Gate Bridge, San Francisco, at night by David Yu)

Can information and technology measure and improve the quality of life in cities?

That seems a pretty fundamental question for the Smarter Cities movement to address. There is little point in us expending time and money on the application of technology to city systems unless we can answer it positively. It’s a question that I had the opportunity to explore with technologists and urbanists from around the world last week at the Urban Systems Collaborative meeting in London, on whose blog this article will also appear.

Before thinking about how we might approach such a challenging and complex issue, I’d like to use two examples to support my belief that we will eventually conclude that “yes, information and technology can improve the quality of life in cities.”

The first example, which came to my attention through Colin Harrison, who heads up the Urban Systems Collaborative, concerns public defibrillator devices – equipment that can be used to give an electric shock to the victim of a heart attack to restart their heart. Defibrillators are positioned in many public buildings and spaces. But who knows where they are and how to use them in the event that someone nearby suffers a heart attack?

To answer those questions, many cities now publish open data lists of the locations of publically-accessible Defibrillators. Consequently, SmartPhone apps now exist that can tell you where the nearest one to you is located. As cities begin to integrate these technologies with databases of qualified first-aiders and formal emergency response systems, it becomes more feasible that when someone suffers a heart attack in a public place, a nearby first-aider might be notified of the incidence and of the location of a nearby defibrillator, and be able to respond valuable minutes before the arrival of emergency services. So in this case, information and technology can increase the chancees of heart attack victims recovering.

(Why Smarter Cities matter: "Lives on the Line" by James Cheshire at UCL's Centre for Advanced Spatial Analysis, showing the variation in life expectancy and correlation to child poverty in London. From Cheshire, J. 2012. Lives on the Line: Mapping Life Expectancy Along the London Tube Network. Environment and Planning A. 44 (7). Doi: 10.1068/a45341)

(Why Smarter Cities matter: “Lives on the Line” by James Cheshire at UCL’s Centre for Advanced Spatial Analysis, showing the variation in life expectancy across London. From Cheshire, J. 2012. Lives on the Line: Mapping Life Expectancy Along the London Tube Network. Environment and Planning A. 44 (7). Doi: 10.1068/a45341)

In a more strategic scenario, the Centre for Advanced Spatial Analysis (CASA) at University College London have mapped life expectancy at birth across London. Life expectancy across the city varies from 75 to 96 years, and CASA’s researchers were able to correlate it with a variety of other issues such as child poverty.

Life expectancy varies by 10 or 20 years in many cities in the developed world; analysing its relationship to other economic, demographic, social and spatial information can provide insight into where money should be spent on providing services that address the issues leading to it, and that determine quality of life. The UK Technology Strategy Board cited Glasgow’s focus on this challenge as one of their reasons for investing £24 million in Glasgow’s Future Cities Demonstrator project – life expectancy at birth for male babies in Glasgow varies by 26 years between the poorest and wealthiest areas of the city.

These examples clearly show that in principle urban data and technology can contribute to improving quality of life in cities; but they don’t explain how to do so systematically across the very many aspects of quality of life and city systems, and between the great variety of urban environments and cultures throughout the world. How could we begin to do that?

Deconstructing “quality of life”

We must first think more clearly about what we mean by “quality of life”. There are many needs, values and outcomes that contribute to quality of life and its perception. Maslow’s “Hierarchy of Needs” is a well-researched framework for considering them. We can use this as a tool for considering whether urban data can inform us about, and help us to change, the ability of a city to create quality of life for its inhabitants.

(Maslow’s Hierarchy of Needs, image by Factoryjoe via Wikimedia Commons)

But whilst Maslow’s hierarchy tells us about the various aspects that comprise the overall quality of life, it only tells us about our relationship with them in a very general sense. Our perception of quality of life, and what creates it for us, is highly variable and depends on (at least) some of the following factors:

  • Individual lifestyle preferences
  • Age
  • Culture and ethnicity
  • Social standing
  • Family status
  • Sexuality
  • Gender
  • … and so on.

Any analysis of the relationship between quality of life, urban data and technology must take this variability into account; either by allowing for it in the analytic approach; or by enabling individuals and communities to customise the use of data to their specific needs and context.

Stress and Adaptability

Two qualities of urban systems and life within them that can help us to understand how urban data of different forms might relate to Maslow’s hierarchy of needs and individual perspectives on it are stress and adaptability.

Jurij Paraszczak, IBM’s Director of Research for Smarter Cities, suggested that one way to improve quality of life is to reduce stress. A city with efficient, well integrated services – such as transport; availability of business permits etc. – will likely cause less stress, and offer a higher quality of life, than a city whose services are disjointed and inefficient.

One cause of stress is the need to change. The Physicist Geoffrey West is one of many scientists who has explored the roles of technology and population growth in speeding up city systems; as our world changes more and more quickly, our cities will need to become more agile and adaptable – technologists, town planners and economists all seem to agree on this point.

The architect Kelvin Campbell has explored how urban environments can support adaptability by enabling actors within them to innovate with the resources available to them (streets, buildings, spaces, technology) in response to changes in local and global context – changes in the economy of cultural trends, for example.

Service scientists” analyse the adaptability of systems (such as cities) by considering the “affordances” they offer to actors within them. An “affordance” is a capability within a system that is not exercised until an actor chooses to exercise it in order to create value that is specific to them, and specific to the time, place and context within which they act.

An “affordance” might be the ability to start a temporary business or “pop-up” shop within a disused building by exploiting a temporary exemption from planning controls. Or it might be the ability to access open city data and use it as the basis of new information-based business services. (I explored some ideas from science, technology, economics and urbanism for creating adaptability in cities in an article in March this year).

(Photo by lecercle of a girl in Mumbai doing her homework on whatever flat surface she could find. Her use of a stationary tool usually employed for physical mobility to enhance her own social mobility is an example of the very basic capacity we all have to use the resources available to us in innovative ways)

Stress and adaptability are linked. The more personal effort that city residents must exert in order to adapt to changing circumstances (i.e. the less that a city offers them useful affordances), then the more stress they will be subjected to.

Stress; rates of change; levels of effort and cost exerted on various activities: these are all things that can be measured.

Urban data and quality of life in the district high street

In order to explore these ideas in more depth, our discussion at the Urban Systems Collaborative meeting explored a specific scenario systematically. We considered a number of candidate scenarios – from a vast city such as New York, with a vibrant economy but affected by issues such as flood risk; through urban parks and property developments down to the scale of an individual building such as a school or hospital.

We chose to start with a scenario in the middle of that scale range that is the subject of particularly intense debate in economics, policy and urban design: a mixed-demographic city district with a retail centre at its heart spatially, socially and economically.

We imagined a district with a population of around 50,000 to 100,000 people within a larger urban area; with an economy including the retail, service and manufacturing sectors. The retail centre is surviving with some new businesses starting; but also with some vacant property; and with a mixture of national chains, independent specialist stores, pawnshops, cafes, payday lenders, pubs and betting shops. We imagined that local housing stock would support many levels of wealth from benefits-dependent individuals and families through to millionaire business owners. A district similar to Kings Heath in Birmingham, where I live, and whose retail economy was recently the subject of an article in the Economist magazine.

We asked ourselves what data might be available in such an environment; and how it might offer insight into the elements of Maslow’s hierarchy.

We began by considering the first level of Maslow’s hierarchy, our physiological needs; and in particular the availability of food. Clearly, food is a basic survival need; but the availability of food of different types – and our individual and cultural propensity to consume them – also contributes to wider issues of health and wellbeing.

(York Road, Kings Heath, in the 2009 Kings Heath Festival. Photo by Nick Lockey)

Information about food provision, consumption and processing can also give insights into economic and social issues. For example, the Economist reported in 2011 that since the 2008 financial crash, some jobs lost in professional service industries such as finance in the UK had been replaced by jobs created in independent artisan industries such as food. Evidence of growth in independent businesses in artisan and craft-related sectors in a city area may therefore indicate the early stages of its recovery from economic shock.

Similarly, when a significant wave of immigration from a new cultural or ethnic group takes place in an area, then it tends to result in the creation of new, independent food businesses catering to preferences that aren’t met by existing providers. So a measure of diversity in food supply can be an indicator of economic and social growth.

So by considering a need that Maslow’s hierarchy places at the most basic level, we were able to identify data that describes an urban area’s ability to support that need – for example, the “Enjoy Kings Heath” website provides information about local food businesses; and furthermore, we identified ways that the same data related to needs throughout the other levels of Maslow’s hierarchy.

We next considered how economic flows within and outside an area can indicate not just local levels of economic activity; but also the area’s trading surplus or deficit. Relevant information in principle exists in the form of the accounts and business reports of businesses. Initiatives such as local currencies and loyalty schemes attempt to maximise local synergies by minimising the flow of money out of local economies; and where they exploit technology platforms such as Droplet’s SmartPhone payments service, which operates in London and Birmingham, the money flows within local economies can be measured.

These money flows have effects that go beyond the simple value of assets and property within an area. Peckham high street in London has unusually high levels of money flow in and out of its economy due to a high degree of import / export businesses; and to local residents transferring money to relatives overseas. This flow of money makes business rents in the area disproportionally high  compared to the value of local assets.

Our debate also touched on environmental quality and transport. Data about environmental quality is increasingly available from sensors that measure water and air quality and the performance of sewage systems. These clearly contribute insights that are relevant to public health. Transport data provides perhaps more subtle insights. It can provide insight into economic activity; productivity (traffic jams waste time); environmental impact; and social mobility.

My colleagues in IBM Research have recently used anonymised data from GPS sensors in SmartPhones to analyse movement patterns in cities such as Abidjan and Istanbul on behalf of their governments and transport authorities; and to compare those movement patterns with public transport services such as bus routes. When such data is used to alter public transport services so that they better match the end-to-end journey requirements of citizens, an enormous range of individual, social, environmental and economic benefits are realised.

(The origins and destinations of end-to-end journeys made in Abidjan, identified from anonymised SmartPhone GPS data)

(The origins and destinations of end-to-end journeys made in Abidjan, identified from anonymised SmartPhone GPS data)

Finally, we considered data sources and aspects of quality of life relating to what Maslow called “self-actualisation”: the ability of people within the urban environment of our scenario to create lifestyles and careers that are individually fulfilling and that reward creative self-expression. Whilst not direct, measurements of the registration of patents, or of the formation and survival of businesses in sectors such as construction, technology, arts and artisan crafts, relate to those values in some way.

In summary, the exercise showed that a great variety of data is available that relates to the ability of an urban environment to provide Maslow’s hierarchy of needs to people within it. To gain a fuller picture, of course, we would need to repeat the exercise with many other urban contexts at every scale from a single building up to the national, international and geographic context within which the city exists. But this seems a positive start.

Recognising the challenge

Of course, it is far from straightforward to convert these basic ideas and observations into usable techniques for deriving insight and value concerning quality of life from urban data.

What about the things that are extremely hard to measure but which are often vital to quality of life – for example the cash economy? Physical cash is notoriously hard to trace and monitor; and arguably it is particularly important to the lives of many individuals and communities who have the most significant quality of life challenges; and to those who are responsible for some of the activities that detract from quality of life – burglary, mugging and the supply of narcotics, for example.

The Urban Systems Collaborative’s debate also touched briefly on the question of whether we can more directly measure the outcomes that people care about – happiness, prosperity, the ability to provide for our families, for example. Antti Poikola has written an article on his blog, “Vital signs for measuring the quality of life in cities“, based on the presentation on that topic by Samir Menon of Tata Consulting Services. Samir identified a number of “happiness indices” that have been proposed by the UK Prime Minister, David Cameron, the European Quality of Life Survey, the OECD’s Better Life Index, and the Social Progress Index created by economist Michael Porter. Those indices generally attempt to correlate a number of different quantitative indicators with qualitative information from surveys into an overall score. Their accuracy and usefulness is the subject of contentious debate.

As an alternative, Michael Mezey of the Royal Society for the Arts recently collected descriptions of attempts to measure happiness more directly by identifying the location of issues or events associated with positive or negative emotions – such as parks and pavements fouled by dog litter or displays of emotion in public. It’s fair to say that the results of these approaches are very subjective and selective so far, but it will be interesting to observe what progress is made.

There is also a need to balance our efforts between creating value from the data that is available to us – which is surely a resource that we should exploit – with making sure that we focus our efforts on addressing our most important challenges, whether or not data relevant to them is easily accessible.

And in practise, a great deal of the data that describes cities is still not very accessible or useful. Most of it exists within IT systems that were designed for a specific purpose – for example, to allow building owners to manage the maintenance of their property. Those systems may not be very good at providing data in a way that is useful for new purposes – for example, identifying whether a door is connected to a pavement by a ramp or by steps, and hence how easy it is for a wheelchair user to enter a building.

(Photo by Closed 24/7 of the Jaguar XF whose designers used “big data” analytics to optimise the emotional response of potential customers and drivers)

Generally speaking, transforming data that is useful for a specific purpose into data that is generally useful takes time, effort and expertise – and costs money. We may desire city data to be tidied up and made more readily accessible; just as we may desire a disused factory to be converted into useful premises for shops and small businesses. But securing the investment required to do so is often difficult – this is why open city data is a “brownfield regeneration” challenge for the information age.

We don’t yet have a general model for addressing that challenge, because the socio-economic model for urban data has not been defined. Who owns it? What does it cost to create? What uses of it are acceptable? When is it proper to profit from data?

Whilst in principle the data available to us, and our ability to derive insight and knowledge from it, will continue to grow, our ability to benefit from it in practise will be determined by these crucial ethical, legal and economic issues.

There are also more technical challenges. As any mathematician or scientist in a numerate discipline knows, data, information and analysis models have significant limitations.

Any measurement has an inherent uncertainty. Location information derived from Smartphones is usually accurate to within a few meters when GPS services are available, for example; but only to within a few hundred meters when derived by triangulation between mobile transmission masts. That level of inaccuracy is tolerable if you want to know which city you are in; but not if you need to know where the nearest defibrilator is.

These limitations arise both from the practical limitations of measurement technology; and from fundamental scientific principles that determine the performance of measurement techniques.

We live in a “warm” world – roughly 300 degrees Celsius above what scientists call “absolute zero“, the coldest temperature possible. Warmth is created by heat energy; that energy makes the atoms from which we and our world are made “jiggle about” – to move randomly. When we touch a hot object and feel pain it is because this movement is too violent to bear – it’s like being pricked by billions of tiny pins. This random movement creates “noise” in every physical system, like the static we hear in analogue radio stations or on poor quality telephone lines.

And if we attempt to measure the movements of the individual atoms that make up that noise, we enter the strange world of quantum mechanics in which Heisenberg’s Uncertainty Principle states that the act of measuring such small objects changes them in unpredictable ways. It’s hardly a precise analogy, but imagine trying to measure how hard the surface of a jelly is by hitting it with a hammer. You’d get an idea of the jelly’s hardness by doing so, but after the act of “measurement” you wouldn’t be left with the same jelly. And before the measurement you wouldn’t be able to predict the shape of the jelly afterwards.

(A graph from my PhD thesis showing experimental data plotted against the predictions of an analytic. Notice that whilst the theoretical prediction (the smooth line) is a good guide to the experimental data, that each actual data point lies above or below the line, not on it. In addition, each data point has a vertical bar expressing the level of uncertainty involved in its measurement. In most circumstances, data is uncertain and theory is only a rough guide to reality.)

Even if our measurements were perfect, our ability to understand what they are telling us is not. We draw insight into the behaviour of a real system by comparing measurements of it to a theoretical model of its behaviour. Weather forecasters predict the weather by comparing real data about temperature, air pressure, humidity and rainfall to sophisticated models of weather systems; but, as the famous British preoccupation with talking about the weather illustrates, their predictions are frequently inaccurate. Quite simply this is because the weather system of our world is more complicated than the models that weather forecasters are able to describe using mathematics; and process using today’s computers.

This may all seem very academic; and indeed it is – these are subjects that I studied for my PhD in Physics. But all scientists, mathematicians and engineers understand them; and whether our work involves city systems, motor cars, televisions, information technology, medicine or human behaviour, when we work with data, information and analysis technology we are very much aware and respectful of their limitations.

Most real systems are more complicated than the theoretical models that we are able to construct and analyse. That is especially true of any system that includes the behaviour of people – in other words, the vast majority of city systems. Despite the best efforts of psychology, social science and artificial intelligence we still do not have an analytic model of human behaviour.

For open data and Smarter Cities to succeed, we need to openly recognise these challenges. Data and technology can add immense value to city systems – for instance, IBM’s “Deep Thunder” technology creates impressively accurate short-term and short-range predictions of weather-related events such as flash-flooding that have the potential to save lives. But those predictions, and any other result of data-based analysis, have limitations; and are associated with caveats and constraints.

It is only by considering the capabilities and limitations of such techniques together that we can make good decisions about how to use them – for example, whether to trust our lives to the automated analytics and control systems involved in anti-lock braking systems, as the vast majority of us do every time we travel by road; or whether to use data and technology only to provide input into a human process of consideration and decision-making – as takes place in Rio when city agency staff consider Deep Thunder’s predictions alongside other data and use their own experience and that of their colleagues in determining how to respond.

In current discussions of the role of technology in the future of cities, we risk creating a divide between “soft” disciplines that deal with qualitative, subjective matters – social science and the arts for example; and “hard” disciplines that deal with data and technology – such as science, engineering, mathematics.

In the most polarised debates, opinion from “soft” disciplines is that “Smart cities” is a technology-driven approach that does not take human needs and nature into account, and does not recognise the variability and uncertainty inherent in city systems; and opinion from “hard” disciplines is that operational, design and policy decisions in cities are taken without due consideration of data that can be used to inform them and predict their outcomes. As Stephan Shakespeare wrote in the “Shakespeare Review of Public Sector Information“, “To paraphrase the great retailer Sir Terry Leahy, to run an enterprise without data is like driving by night with no headlights. And yet that is what government often does.”

There is no reason why these positions cannot be reconciled. In some domains “soft” and “hard” disciplines regularly collaborate. For example, the interior and auditory design of the Jaguar XF car, first manufactured in 2008, was designed by re-creating the driving experience in a simulator at the University of Warwick, and analysing the emotional response of test subjects using physiological sensors and data. Such techniques are now routinely used in product design. And many individuals have a breadth of knowledge that extends far beyond their core profession into a variety of areas of science and the arts.

But achieving reconciliation between all of the stakeholders involved in the vastly complex domain of cities – including the people who live in them, not just the academics, professionals and politicians who study, design, engineer and govern them – will not happen by default. It will only happen if we have an open and constructive debate about the capabilities and the limitations of data, information and technology; and if we are then able to communicate them in a way that expresses to everyone why Smarter City systems will improve their quality of life.

(“Which way to go?” by Peter Roome)

What’s next?
It’s astonishing and encouraging that we could use a model of individual consciousness to navigate the availability and value of data in the massively collective context of an urban scenario. To continue developing an understanding of the ability of information and technology to contribute to quality of life within cities, we need to expand that approach to explore the other dimensions we identified that affect perceptions of quality of life: culture, age and family status, for example; and within both larger and smaller scales of city context than the “district” scenario that we started with.

And we need to compare that approach to existing research work such as the Liveable Cities research collaboration between UK Universities that is establishing an evidence-based technique for assessing wellbeing; or the IBM Research initiative “SCRIBE” which seeks to define the meaning of and relationships between the many types of data that describe cities.

As a next step, the Urban Systems Collaborative attendees suggested that it would be useful to consider how people in different circumstances in cities use data, information and technology to take decisions:  for example, city leaders, businesspeople, parents, hostel residents, commuters, hospital patients and so forth across the incredible variety of roles that we play in cities. You can find out more about how the Collaborative is taking this agenda forward on their website.

But this is not a debate that belongs only within the academic community or with technologists and scientists. Information and technology are changing the cities, society and economy that we live in and depend on. But that information results from data that in large part is created by all of our actions and activities as individuals, as we carry out our lives in cities, interacting with systems that from a technology perspective are increasingly instrumented, interconnected and intelligent. We are the ultimate stakeholders in the information economy, and we should seek to establish an equitable consensus for how our data is used; and that consensus should include an understanding and acceptance between all parties of both the capabilities and limitations of information and technology.

I’ve written before about the importance of telling stories that illustrate ways in which technology and information can change lives and communities for the better. The Community Lovers’ Guide to Birmingham is a great example of doing this. As cities such as Birmingham, Dublin and Chicago demonstrate what can be achieved by following a Smarter City agenda, I’m hoping that those involved can tell stories that will help other cities across the world to pursue these ideas themselves.

(This article summarises a discussion I chaired this week to explore the relationship between urban data, technology and quality of life at the Urban Systems Collaborative’s London workshop, organised by my ex-colleague, Colin Harrison, previously an IBM Distinguished Engineer responsible for much of our Smarter Cities strategy; and my current colleague, Jurij Paraszczak, Director of Industry Solutions and Smarter Cities for IBM ResearchI’m grateful for the contributions of all of the attendees who took part. The article also appears on the Urban Systems Collaborative’s blog).

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