The future of open urbanism

December 4, 2012 1 Comment

(I’m a guest blogger on UBM’s Future Cities community; this article was published there last week. It builds on themes I first explored here in the article “Open urbanism: why the information economy will lead to sustainable cities“).

(Delegates browsing the exhibition space in Fira Barcelona at the World Bank’s Urban Research and Knowledge Symposium “Rethinking Cities”)

The rapid evolution of sensors, analytics, and automation technologies and their application to city systems such as transport, energy, and utilities offer a glimpse of the future.

These systems will support city populations more efficiently and sustainably. In South Bend, Ind., for example, an analytic system helps to predict and prevent wastewater overflows, avoiding the need to invest in hundreds of millions of dollars for upgrades for the system’s physical capacity.

However, the real power of these intelligent infrastructures is in their ability to influence our choices.

Stockholm’s road-use charging system, for example, influences the behaviour of travelers considering driving into the city and has reduced congestion and improved environmental quality.

At the World Bank’s “Rethinking Cities” Symposium in Barcelona in October, I took part in a panel discussion on whether this approach of including “externalities” (such as social and environmental costs) in prices would encourage widespread adoption of sustainable behaviours. The panel concluded that, whilst pricing is a useful tool, it’s not the only one and not sufficient on its own.

(The remainder of this article, which explores the opportunity for technology to encourage sustainable choices, can be found on UBM’s Future Cities site, as “The Future of Open Urbanism“).

Filed under Urbanism Tagged with , , , , , , , , , , , , , ,

Soft Infrastructures For Smart Cities

November 19, 2012 2 Comments

Birmingham’s new Library, intended to foster conversations and the exchange of knowledge and ideas..

(I’ve recently begun guest blogging at UBM’s new Future Cities site; this was the first article I posted there. It builds on themes I first explored here in the article “The new architecture of Smart Cities“).

At Birmingham’s Smart City Commission, we have been trying to answer an interesting question: What makes the difference between a “smart city” and a city where smart projects take place?

“Smart” projects will occur everywhere in time. Human history is in part the story of our continual adoption of new technologies, and technologies like sensors, actuators, smartphones, analytics, and “big-data” will eventually be adopted across city systems such as transportation, energy, planning, and social services.

But if a city seeks to exploit new technologies across its systems in a coordinated way to address overall goals for regeneration, sustainability, and social and economic growth, how can that be achieved?

Some obvious characteristics can be observed in cities that have successfully pursued this agenda: They have a clear vision, championed by city leaders, and they have invested in technology initiatives such as broadband connectivity and open data.

That’s not enough, though. The behaviour of a city is the aggregate of the activity of the hundreds of thousands or millions of people who live, work, and relax there. A city will not achieve its goals through a smart strategy unless that strategy results in changes to systems that make a difference to all of those individuals.

The challenge for architects and designers is to create infrastructures and services that can become part of the fabric of city life. This will not be achieved simply by applying concepts such as citizen-centric principles to the design of smart city services. That is necessary, but not sufficient. The more important question is: Who has the ability to apply such approaches on behalf of all of the people within a city?

(The remainder of this article can be found on UBM’s Future Cities site, as “Why Cities need Communities“).

Filed under Urbanism Tagged with , , , , , , ,

Zen and the art of messy urbanism

November 7, 2012 11 Comments

(Children playing in the “Science Garden” outside Birmingham’s Science Museum at Millenium Point; part of the new Eastside City Park, a vast urban space surrounded by education, culture and manufacturing.)

Over the past few months and weeks, some interesting announcements have been made concerning emerging frameworks and protocols for Smarter Cities.

Perhaps the highest profile was the formation of the “City Protocol” collaboration in Barcelona, which will be formally launched at the Smart City Expo later this month. The protocol has been established to identify and capture emerging practises and standards to promote interoperability across city systems and enable progress towards city-level goals to be stimulated, coordinated and measured.

More recently, UN-HABITAT, the United Nations agency for human settlements which promotes socially and environmentally sustainable towns and cities, and a source frequently referred to for statistics concerning the progress of urbanisation, published its “State of the World’s Cities 2012/2013” report, which includes extensive consultation with cities around the world. It proposes a number of new mechanisms which are intended to assist decision makers in cities.

These resources of knowledge and experience will be key to helping cities face the grand challenge of demographics, economics and sustainability that is becoming acute. In a paper published in the respected, peer-reviewed scientific journal Nature, Professors Geoffrey West and Luis Bettencourt described it as “the greatest challenge that the planet has faced since humans became social“; and we have already seen evidence of its urgency. The “Barnett graph of doom“, for example, famously predicted that within 20 years, unless significant changes in public services are made, cities will be unable to afford to provide any services except social care; the UK’s energy regulator Ofgem’s recently warned that the country could experience power shortages in the winter of 2015-2016; and there is concern that this year’s drought in the US will once again cause food shortages across the world.

However, we should not expect that cities will reach a sustainable future state through the process of city leaders and institutions adopting a deterministic framework or method. Such an approach may work when applied to the transformation of organisations and their formal relationships with partners; but cities are more fundamentally complex “systems of systems” incorporating vast numbers of autonomous agents and interrelationships.

The Collective Research Initiatives Trust (CRIT) recently produced a fascinating piece of research, “Being Nicely Messy“, about the evolution of Mumbai’s economy in this context. As a background for the transformative changes taking place, they state that:

“While the population in Mumbai grew by 25% between 1991 and 2010, the number of people traveling by trains during the same years increased by 66% and number of vehicles grew by 181%. At the same time, the number of enterprises in the city increased by 56%. All of this indicates a restructuring of the economy, where the nature of work and movement has changed.”

Rather than focus on the policies and approaches of the city’s institutions, CRIT’s research focussed on the activities of everyday entrepreneurs in Mumbai – average people, finding a way to make their livelihood within the city:

“… new patterns of work emerged as the new entrepreneurs struggled to survive and settle. they occupied varied locations and blurred the distinction between formality and informality; legality and illegality as all of them produced legitimate commodities and services.”

“… the entrepreneurs of Mumbai have innovatively occupied city spaces maximizing their efficiency …”

“… the blurry / messy condition … contributes to the high transactional capacity of the urban form.”

“… mumbai’s urbanism is like a froth with overlapping ecosystems of geographies, legislations, claims, powers, kinships, friendships & information.”

Crucially, CRIT relate this “messy” innovative activity to the ability of individuals within the city to access opportunities to create their own wealth and livelihood within the city and its changing economy:

“… mobility or to mobilize is the ability to navigate the complex urban ecosystem of geographies, legislations, claims, powers, relationships and information to construct one’s path for the future amidst these movements.”

(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)

This sort of organic innovation takes place continuously in cities, and increasingly exploits technology resources as well as the capacity of the physical urban environment and its transport systems. For example I wrote recently about the community innovation that’s taking place in Birmingham currently; including “social media surgeries” and “hacking” weekends. There is currently a considerable hope that this adoption of technology by community innovators will enable them to achieve an impact on cities as a whole.

But creating sustainable, scalable new enterprises and city services from these innovations is not straightforward. After analysing the challenges that have caused many such initiatives to achieve only temporary results, O’Reilly Radar wrote recently that cities seeking to sustainably exploit open data and hacktivism need to invest in “sustainability, community, and civic value”; and San Francisco announced a series of measures, including both legislation for open data and the appointment of a “Chief Data Officer” for the city, intended to achieve that. I have previously argued that in addition, cities should analyse the common technology services required to support these innovations in a secure and scalable way, and make them available to communities, innovators and entrpreneurs.

For this to happen, new relationships are required between city institutions, their service delivery and technology partners, communities, entrepreneurs, businesses, social enterprises and all of the other very varied stakeholders in the city ecosystem. I’ve previously described the conversations and creation of trust required to build these relationships as a “soft infrastructure” for cities; and new models of collaborative decision-making and activity such as “constellations” and “articulations” are emerging to describe them.

It’s very important to not be too structured in our thinking about soft infrastructure. There is a temptation to revert to thinking in silos, and assume that city communities can be segmented into areas of separate concern such as neighbourhoods, sectors such as “digital entrepreneurs”, or service user communities such as “commuters”. To do this is to forget where and how innovation and the creation of new value often occurs.

Michael Porter, creator of the famous “five forces” model of business, and his colleagues have written that new value is often created when capabilities – and technologies – are converged across sectors. In 2006,  IBM’s worldwide survey of CEOs in public and private sector carried out with The Economist’s Intelligence Unit identified several different areas of innovation: products and services, markets, operations and business models. In particular, innovations that use new business models to offer products and services that transcend and even disrupt existing market structures have the potential to create the most value.

The CRIT research recognised this need to blur boundaries; and went further to state that imposing formal boundaries inhibits the transactions that create value in the economy and society of cities. Tim Stonor has written and presented extensively on the idea that a city should be a “transaction engine”; and many urbanists have asserted that it is the high density of interactions that cities make possible that have led to the city becoming the predominant form of human habitation.

(Photo by Halans of volunteers collecting food for OzHarvest, who redistribute excess food from restaurants and hotels in Australian cities to charities supporting the vulnerable.)

Human thinking creates boundaries in the world; our minds recognise patterns and we impose those patterns on our perceptions and understanding. But this can inhibit our ability to recognise new possibilities and opportunities. Whilst many useful patterns do seem to be emerging from urban innovation – a re-emergence of bartering and local exchanges, social enterprises and community interest companies, sustainable districts, for example – it’s far too early for us to determine a market segmentation for the application of those models across city systems. Rather than seeking to stimulate innovation within specific sectors, CRIT argue instead for the provision of catalogues of “tools” that can be used by innovators in whatever context is appropriate for them.

The European Bio-Energy Research Institute in Birmingham, for example, is seeking to establish a regional supply chain of SMEs to support its work to develop small-scale, sustainable technology for recovering energy from waste food and sewage; in Mexico City, a new bartering market allows residents to exchange recyclable waste material for food; and in the UK the “Eco-Island” Community Interest Company is establishing a local smart-grid on the Isle of Wight to harness sustainable energy sources to enable the entire island to become self-sufficient in energy. These very different models are converging city systems such as food, waste and energy and disrupting the traditional models for supporting them.

In “The Way of Zen“, Alan Watts comments of Zen art that “the very technique involves the art of artlessness, or what Sabro Hasegawa has called the ‘controlled accident’, so that paintings are formed as naturally as the rocks and grasses which they depict”. Just as the relentless practise of technique can enable artists to have “beautiful accidents” when inspiration strikes; so cities should look to provide more effective tools to innovators for them to exploit in whatever context they can create new value. We should not expect the results always to be neat and tidy; and nor should our approach to encouraging them be.

Filed under Urbanism Tagged with , , , , , , , , , , , , , , , ,

Open urbanism: why the information economy will lead to sustainable cities

October 11, 2012 16 Comments

(Delegates browsing the exhibition space in Fira Barcelona at the World Bank’s Urban Research and Knowledge Symposium “Rethinking Cities”)

On Monday this week I attended the World Bank’s “Rethinking Cities” Symposium in Barcelona.  I was asked to give presentations to the Symposium on the contributions technology could make to two challenges: improving social and physical mobility in cities; and the encouragement of change to more sustainable behaviours by including “externalities” (such as social and environmental costs) in the prices of goods and services.

(In her speech ahead of the Rio +20 Summit, Christine Lagarde, Managing Director of the International Monetary Fund, said that one of the challenges for achieving a sustainable, equitably distributed return to growth following the recent economic challenges was that these externalities are not currently included in prices).

These two topics are clearly linked. The lack of access that some city communities have to economic and personal opportunity is in part a social consequence of the way that systems such as education, transport and  planning operate.

As human beings, however altruistic we are capable of being, each day we take tens or hundreds of decisions which, in the moment, are consciously or subconsciously based on selfish motivations. We drive cars to work because it’s quicker and more pleasant than using public transport; or because it’s quicker, easier and safer than cycling, for example. The accumulation of all of these decisions by all of us defines the behaviour of the cities we inhabit.

In principle we might all be better off – proximity allowing – if we cycled or walked to our places of work, or to school with our children. It would be safer because there would be less traffic; both the exercise and the reduction in pollution would improve our health; and we would probably talk to our neighbours more in the process. One of the reasons we don’t currently choose cycling or walking for these journeys is that we are too busy working to afford the time involved in doing so. Crudely speaking, we are in competition with each other to earn enough money to survive comfortably and to afford the lifestyles we aspire to.

(The Copenhagen Wheel bike photographed by Sujil Shah. The wheel stores energy under braking and uses it to power an electric motor when required and shares information with a smartphone app.)

Game Theory” – the mathematical analysis of human decision-making in groups – has something interesting to say on this subject. To oversimplify a complex and subtle field, Game Theory predicts that if we suspect each other of behaving selfishly, then we will behave selfishly too; but that when we observe others behaving in the common interest, then we are likely to behave in the same way.

So if we all knew that all of us were going to spend a little less time at work in order to walk with our children to school and then cycle to work, then we could do so, safe in the knowledge that individually we wouldn’t lose out, couldn’t we?

Obviously, that’s a ridiculous suggestion.

Except … in his plenary talk at the World Bank Symposium, Harvard Professor of Economics Edward Glaeser – author of “Triumph of the City” – at one point commented that part of the shift towards a more sustainable global economy might be for those of us who live in developed economies to forgo some monetary wealth in favour of living in more attractive cities.

So just maybe the suggestion wasn’t completely crazy, after all.

In Monday’s discussions at the Symposium we explored how sustainable choices could be made available in a way that appeals to the motivations of individuals and communities. We examined several ways to create positive and negative incentives through pricing; but also examples of simply “removing the barriers” to making such choices.

For example, if information was made available on demand to make it easier to plan a complete door-to-door journey using sustainable forms of transport such as cycling, buses, trains and shared car journeys, would people make less individual journeys in private cars?

Services are already emerging to provide this information, such as Moovel (a commercial offering) and Open Trip Planner (a free service using crowdsourced data). They are just two examples of the ways in which the availability of information is making our cities more open and transparent. At the moment, both services are too new for us to make an assessment of their impact; but it will be fascinating to observe their progress.

(The Portland, Oregon implementation of Open Trip Planner)

The lesson of Game Theory is that this transparency – which I think of as “Open Urbanism” in this context – is what is required to enable and encourage all of us to make the sustainable choices that in their collective impact could make a real difference to the way that cities work.

I’d like to explore four aspects of Open Urbanism a little further to support that idea: Open Thinking; Open Data; Open Systems and Open Markets.

Open Thinking

The simplest expression of Open Urbanism is through engagement and education. In the afternoon plenary debate at the Rethinking Cities symposium, the inspirational Jaime Lerner spoke of a city recycling programme that has been operating successfully for many years; and that involves citizens taking the time to separate recyclable waste in return for no direct individual benefit whatsoever. So how were they persuaded to spend their time in this way?

It simply began by teaching children why sorting and recycling waste was important, and how to do it. Those children taught and persuaded their parents to adopt the behaviour; and in time they taught their own children. In this way, recycling became a cultural habit. Jaime later referred to the general concept of “urban acupuncture” – finding a handful of people who have the ability to change, and understanding what it takes to encourage them to change – a bit like planting a tiny needle in exactly the right place in the city.

Open Data

The information available about cities, businesses, current events and every other aspect of life is increasing dramatically; through the Open Data movement; through crowdsourced information; through the spread of news and opinion via social media; and through the myriad new communication forms that are appearing and spreading every day. The availability of this information, and the awareness that it creates amongst us all of how our cities and our world behave, creates a powerful force for change.

For example, a UK schoolgirl recently provoked a national debate concerning the standard of school meals simply by blogging about the meals that were offered to her each day at school, and in particular commenting on their health implications.  And my colleagues in IBM along with our partners Royal Haskoning and Green Ventures have helped the city of Peterborough to understand, combine, visualise and draw insight from information concerning the environment, the economy, transport and social challenges in order to better inform planning and decision making.

Open Systems

The next stage is to develop models from this data that can simulate and predict how the many systems within cities interact; and the outcomes that result from those interactions. IBM’s recent “Smarter Cities Challenge” in my home city of Birmingham studied detailed maps of the systems in the city and their inputs and outputs, and helped Birmingham City Council understand how to developed those maps into a tool to predict the outcomes of proposed policy changes. In the city of Portland, Oregon – as shown in the video below – a similar interactive tool has already been produced.

(A video describing the “systems dynamics” project carried out by IBM in Portland, Oregon to model the interactions between city systems)

As data is made available from city systems in realtime, these models can be used not just to explore potential changes in policy; but to predict the dynamic behaviour of cities and create intelligent, pro-active – and even pre-emptive – responses. We can collect and access data now from an astonishing variety of sources: there are 30 billion RFID tags embedded into our world, across entire ecosystems of activity; we have 1 billion mobile phones with cameras able to capture and share images and events; and everything from  domestic appliances to vehicles to buildings is increasingly able to monitor its location, condition and performance and communicate that information to the outside world.

These sources can tell us which parking spaces are occupied, and which are free, for example. Streetline are using this information in San Francisco to create a market for parking spaces that reduces traffic congestion in the city. In South Bend, Indiana, an analytic system helps to predict and prevent wastewater overflows by more intelligently managing the city’s water infrastructure based on realtime information from sensors monitoring it. The city estimates that they have avoided the need to invest in hundreds of millions of dollars of upgrades to the physical capacity of the infrastructure as a result.

If such information is made openly available to innovators in city economies and communites, surprising new systems can be created. At a recent “hackathon” in Birmingham, an “app” was created that connects catering services with excess food to food distribution charities who can use it.

(The QR code that enabled Will Grant of Droplet to buy me a coffee at Birmingham Science Park Aston using Droplet’s local smartphone payment solution; and the receipt that documents the transaction)

That same information can create an appeal to our sense of community and place. The city of Dubuque in Iowa provides citizens and businesses with smart meters that measure and analyse their water use. They can detect when domestic appliances are used on inefficient settings, or when there is a leak in the water supply.

pilot project in Dubuque found that people were twice as likely to act on this information when they were not only provided with insight into their own water usage; but also provided with a  score that ranked their water conversation performance compared to that of their neighbours.

Open Markets

To return to the initial subject of this article, interesting new technology-enabled systems such as local currencies are emerging that could embed information from open city systems into the pricing systems of new markets within cities – and thereby quantify the cost of “externalities” in those markets. For instance, the Brixton and Bristol Pounds are local currencies intended to reinforce local economic synergies; and in Birmingham Droplet are now making their first payments through their local SmartPhone Payment system which similarly operates between local merchants.

We are on the cusp of incredibly exciting possibilities. Local currencies and trading systems could enable marketplaces in locally-generated power; or in localised manufacturing using technologies such as 3D printing. They could exploit distribution systems such as the one that Amazon make available to their marketplace traders; and underground waste and recycling systems that take waste and recyclables direct from the home to the appropriate recycling and disposal centres.

I can only image the city systems that might result if these capabilities and sources of information were made openly available to innovators within city communities. They could create solutions that are Smarter than we can imagine. Personally I’m convinced that this “Open Urbanism” is an essential part of the journey towards the sustainable city of the future.

Filed under Urbanism Tagged with , , , , , , , , , , , , , , , , , , ,

Five steps to a Smarter City; and the philosophical imperative for taking them

September 11, 2012 8 Comments

(Photo of digital lights in “The Place” in Beijing by Trey Ratcliff)

This year more and more cities have started on the road to getting Smarter. In part that momentum has been catalysed in the UK by the Technology Strategy Board’s “Future Cities Demonstrator” competition, in which thirty cities have been awarded small grants to carry out feasibility studies for a £24 million demonstrator project; and across Europe it has been encouraged by continuing investment from the European Union.

Over the last few months I’ve written articles on many of the challenges and considerations faced by cities setting out on this journey. This week I thought it would be useful to look back and summarise how they fit together into an overall approach consisting of five steps; and then to revisit the reasons why it is so vitally important that we take those steps.

1. Define what a “Smarter City” means to you

Many urbanists and cities have grappled with how to define what a “Smart City”, a “Smarter City” or a “Future City” might be. It’s important for cities to agree to use an appropriate definition because it sets the scope and focus for what will be a complex collective journey of transformation.

In his article “The Top 10 Smart Cities On The Planet“, Boyd Cohen of Fast Company defined a Smart City as follows:

“Smart cities use information and communication technologies (ICT) to be more intelligent and efficient in the use of resources, resulting in cost and energy savings, improved service delivery and quality of life, and reduced environmental footprint–all supporting innovation and the low-carbon economy.”

This definition shares a useful distinction that was made to me by the Technology Strategy Board‘s Head of Sustainability, Richard Miller: a “Smart City” is one that transforms itself into a “Future City” by using technology. In IBM we use the phrase “Smarter City” to describe a city that is making progress on that path.

As is frequently quoted, more than half of the world’s population now lives in urban areas; and in the UK where I live, that’s true of more than 90% of us. So its not surprising that so many people have strong views on what Smart, Smarter and Future Cities should be.

Personally I think that a useful and holistic definition of a “Future City” needs to include the following concepts:

  • A Future City is in a position to make a success of the present: for example, it is economically active in high-value industry sectors and able to provide the workforce and infrastructure that companies in those sectors need.
  • A Future City is on course for a successful future: with an education system that provides the skills that will be needed by future industries as technology evolves.
  • A Future City creates sustainable, equitably distributed growth: where education and employment opportunities are widely available to all citizens and communities, and with a focus on delivering social and environmental outcomes as well as economic growth.
  • A Future City operates as efficiently & intelligently as possible: so that resources such as energy, transportation systems and water are used optimally, providing a low-cost, low-carbon basis for economic and social growth, and an attractive, healthy environment in which to live and work.
  • A Future City enables citizens, communities, entrepreneurs & businesses to do their best; because making infrastructures Smarter is an engineering challenge; but making cities Smarter is a societal challenge; and those best placed to understand how societies can change are those who can innovate within them.

If those objectives provide – an admittedly very generic – view of what a “Future City” is, then a “Smarter City” is one that uses technology to accomplish them.

Creating a more specific vision is a task for each city to undertake for itself, taking into account its unique character, strengths and challenges. This process usually entails a collaborative act of creativity by city stakeholders.

(The members of Birmingham’s Smart City Commission)

2. Convene a stakeholder group to create a specific Smarter City vision

For a city to agree a shared “Smarter City” vision involves bringing an unusual set of stakeholders together in a single forum: political leaders, community leaders, major employers, transport and utility providers, entrepreneurs and SMEs, universities and faith groups, for example. The task for these stakeholders is to agree a vision that is compelling, inclusive; and specific enough to drive the creation of a roadmap of individual projects and initiatives to move the city forward.

This is a process that I’m proud to be taking part in in Birmingham through the City’s Smart City Commission. I discussed how such processes can work, and some of the challenges and activities involved, back in July in an article entitled “How Smarter Cities Get Started“.

3. Populate a roadmap that can deliver the vision

In order to fulfill a vision for a Smarter City, a roadmap of specific projects and initiatives is needed, including both early “quick wins” and longer term strategic programmes.

Those projects and initiatives take many forms; and it can be worthwhile to concentrate initial effort on those that are simplest to execute because they are within the remit of a single organisation; or because they build on cross-organisational initiatives within cities that are already underway.

In my August article “Five roads to a Smarter City” I gave some ideas of what those initiatives might be, and the factors affecting their viability and timing, including:

  1. Top-down, strategic transformations across city systems;
  2. Optimisation of individual infrastructures such as energy, water and transportation;
  3. Applying “Smarter” approaches to “micro-city” environments such as industrial parks, transport hubs, university campuses or leisure complexes;
  4. Exploiting the technology platforms emerging from the cost-driven transformation to shared services in public sector;
  5. Supporting the “Open Data” movement.

A roadmap consisting of several such individual activities within the context of a set of cross-city goals, and co-ordinated by a forum of cross-city stakeholders, can form a powerful programme for making cities Smarter.

4. Put the financing in place

A crucial factor in assessing the viability of those activities, and then executing them, is putting in place the required financing. There are many ways in which that can be done, and I’ve described several of them in two articles over the last two weeks:

In “Ten ways to pay for a Smarter City (part one)“:

And in “Ten ways to pay for a Smarter City (part two):

I’m a technologist, not a financier or economist; so those articles are not intended to be exhaustive or definitive. But they do suggest a number of practical options that can be explored.

(Meeting with social entrepreneurs in Sunderland who create local innovations in the city)

5. Thinking beyond the future: how to make “Smarter” a self-sustaining process

Once a city has become “Smart”, is that the end of the story?

I don’t think so. The really Smart city is one that has put in place soft and hard infrastructures that can be used in a continuous process of reinvention and creativity.

In the same way that a well designed urban highway should connect rather than divide the city communities it passes through, the new technology platforms put in place to support Smarter City initiatives should be made open to communities and entrepreneurs to constantly innovate in their own local context. I described that process along with some examples of it in “The amazing heart of a Smarter City: the innovation boundary“.

When it works well, the result is the ongoing creation of new products, services or even marketplaces that enable city residents and visitors to make choices every day that reinforce local values and synergies. I described some of the ways in which technology could enable those markets to be designed to encourage transactions that support local outcomes in “From Christmas lights to bio-energy: how technology will change our sense of place“. And the money-flows within those markets can be used as the basis of financing their infrastructure, as I discussed in “Digital Platforms for Smarter City Market-Making“.

Birmingham’s Smart City Commission is due to meet again in two weeks’ time. Since it last met I’ve been discussing its work with entrepreneurs, academics and urbanists in the city. I hope that together we can successfully help the UK’s second city along this path.

(Artist’s impression of a vertical urban farm shared by Curbed SF)

A philosophical imperative

It’s worth at this point reminding ourselves why we’re compelled to make cities Smarter. I’ve often referred to the pressing economic and environmental pressures we’re all aware of as the reasons to act; but they are really only the acute symptoms of an underlying demographic trend and its effect on the behaviour of complex systems within cities.

The world’s population is expected to grow towards 10 billion in 2070; and most of that growth will be within cities. The physicist and biologist Geoffrey West’s work on cities as complex systems showed that larger, denser cities are more successful in creating wealth. That creation of wealth attracts more residents, causing further growth – and further consumption of resources. At some point it’s inevitable that this self-reinforcing growth triggers a crisis.

If this sounds alarmist, consider the level of civic unrest associated with the Eurozone crisis in Greece and Spain; or that in the 2000 strike by the drivers who deliver fuel to petrol stations in the UK, some city supermarkets came within hours of running out of food completely. Or simply look to the frightening global effects of recent grain shortages caused by drought in the US.

Concern over this combination of the cost of resources and uncertainty in their supply has lead to sustainability becoming a critical economic and social issue, not just a long-term environmental one. And it demands changes in the way that cities behave.

As an example of just how far-reaching this thinking has become, consider the supply of food to urban areas. Whilst definitions vary, urban areas are usually defined as continuously built-up areas with a population of at least a few thousand people, living at a density of at least a few hundred people per square kilometer. Actual population densities in large cities are much higher than this, typically a few tens of thousands per square kilometer in developed economies, and sometimes over one hundred thousand per square kilometer in the largest megacities in emerging economies.

In contrast, one square kilometer of intensively farmed land with fertile soil in a good climate can feed approximately 1000 people according to Kate Cooper of the New Optimists forum, which is considering scenarios for Birmingham’s food future in 2050. Those numbers tell us that, then unless some radical new method of growing food appears, cities will never feed themselves, and will continue to rely on importing food from ever larger areas of farmland to support their rising populations.

(Photo by TEDxBrainport of Dr Mark Post explaining how meat can be grown artificially)

As I’ve noted before, such radical new methods are already appearing: artificial meat has been grown in laboratories; and the idea of creating “vertical farms” in skyscrapers is being seriously explored.

But these are surely scientific and engineering challenges; so why do I refer to a philosophical imperative?

I’ve previously referred to artificial meat and vertical farming as examples of “extreme urbanism“. They certainly push the boundaries of our ability to manipulate the natural world. And that’s where the philosophical challenge lies.

Do we regard ourselves as creatures of nature, or as creatures who manipulate nature? To what extent do we want to change the character of the world from which we emerged? As the population of our planet and our cities continues to rise, we will have to confront these questions, and decide how to answer them.

Geoffrey West’s work clearly predicts what will happen if we continue our current course; and I think it is likely that scientists and engineers will rise to the challenge of supporting even larger, denser cities than those we currently have. But personally I don’t think the result will be a world that I will find attractive to live in.

Organisations such as Population Matters campaign carefully and reasonably for an alternative path; an agenda of education, access to opportunity and individual restraint in the size of our families as a means to slow the growth of global population, so that more orthodox solutions can be affective – such as increasing the efficiency of food distribution, reducing food wastage (including our personal food wastage) and changing dietary habits – for instance, to eat less meat.

I don’t claim to know the answer to these challenges, but I’m thankful that they are the subject of urgent research by serious thinkers. The challenge for cities is to understand and incorporate this thinking into their own strategies in ways that are realistic and practical, in order that their Smarter City programmes represent the first steps on the path to a sustainable future.

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

Ten ways to pay for a Smarter City (part one)

August 29, 2012 21 Comments

Birmingham’s striking new Library, which will open in 2013, is one example of the regeneration projects currently underway in cities despite the challenging economic climate.

I’ve been meeting frequently of late with academic, public sector and private sector partners in city systems to explore the ways in which Smarter City initiatives are funded. Whilst many such programmes are underway, it is still the case that individual cities starting on this path find that it can take considerable time to identify and secure funds.

The ultimate stakeholder in Smarter City initiatives is often a local authority – they alone have the responsibility to ensure the functioning and success of a city as a whole. But whilst some reports show that private sector sentiment is finally improving following the 2008 crash, public sector – and in particular, local government – is still in the grasp of an unprecedented squeeze in funding. So where can city authorities look for the – sometimes substantial – funds needed to support Smarter City initiatives?

Up to now, a great many Smarter City initiatives have been funded at least in part by research grants. By their nature, these will only fund the first projects to explore Smarter City concepts – they will not scale to support the mass adoption of proven ideas. So we need to consider how they are used alongside other sources of funding.

In this post I’ll describe the first five of ten ways that Smarter City initiatives can be funded, including but not limited to research grants. None of them are silver bullets; but they all represent realistic ways to start paying for cities to become Smarter. I’ll describe another five in a follow-up post next week.

The UK Technology Strategy Board’s “Creative Industries Knowledge Transfer Network” (who took this photo) brings innovators in cities together to create new ideas.

1. Apply for research grants to support new Smarter City ideas

Whilst research funding will not pay for widespread adoption of proven Smarter City ideas, it will still support the search for new ideas. And we have certainly not exhausted the supply of ideas – far from it. In the UK, the Technology Strategy Board’s award of thirty £50,000 grants to perform “Future City” feasibility studies has kick-started a frenzy of activity. Just one of the thirty cities awarded these grants will be chosen to receive £24 million to support a demonstrator project; but many of the others will use the results of their feasibility studies to seek independent funds to move ahead.

The European Union recently launched an Innovation Partnership for Smart Cities and Communities that is expected to provide €365 million to support projects demonstrating innovative urban technology systems; and many funding programmes that are not labelled “Smart” or “City” are nevertheless relevant to Smarter Cities – such as the Technology Strategy Board’s “Innovating in the Cloud” funding competition or the UK Engineering and Physical Sciences Research Council’s “Research in the Wild” programme.

From social science to sustainability to healthcare to transport and buildings, many research agendas are relevant to creating the cities of the future; and new, well-formed ideas can always seek support from the relevant funding organisations. In this context, it’s not surprising that we’re seeing ever-closer links being forged between cities and the Universities that are located in them.

2. Exploit the information-sharing potential of shared service platforms

City and regional authority finances are under unprecedented pressure from the acute financial situation and expected demographic changes. In the developed world, we are getting older, and more people who have retired from work need the support of less people who are still working and paying taxes; and in emerging economies, urban populations are growing at a staggering rate.

In order to save money whilst maintaining vital services, local governments are increasingly sharing the delivery of support services such as finance, HR and IT; saving money – and reducing staff – in those functions in order to preserve the delivery of frontline services such as education and social care. It is difficult to overstate the significance of these changes; in the UK, for example, it is expected that nearly 900,000 public sector workers – 3% of the entire national workforce – will lose their jobs over the next five years as a result. Whilst specific characteristics vary from place to place, similar trends are visible across the world.

One outcome of these changes is that shared IT platforms are increasingly in place in cities and regions to support shared services. Those platforms now host co-located, multi-agency data. Cities such as Plymouth, Dublin and Sunderland are starting to explore the benefits that might be realised from that data. In Sunderland, the CEO and CIO have both spoken extensively about the opportunities they see to transform the city and services within it using their City Cloud platform. The East Riding of Yorkshire has been sharing services between agencies for some time, and has reported their achievements in addressing Child Poverty through improving cross-agency information sharing as a result.

These examples all show that whilst the current acceleration of shared services in cities and regions has its origins in adversity, it nevertheless offers the potential to support some positive outcomes too.

3. Find and support hidden local innovations

(Photograph by Meshed Media of Birmingham’s Social Media Cafe, where individuals from every part of the city who have connected online meet face-to-face to discuss their shared interest in social media.)

City populations are not passive observers to the Smarter City phenomenon. They may be crowd-sourcing mapping information for OpenStreetMap; running or participating in hacking events such as the forthcoming Government Open Hackday in Birmingham; or they may be creating new social enterprises or regional technology startups, such as the many city currencies and trading schemes that are appearing. Simply running social media surgeries as Podnosh do in Birmingham, can have a powerful effect on local communities by helping them exploit social technology to uncover hidden synergies and connections.

Individual officers in many councils work very positively with these community innovators. But substantial formal relationships can be impeded by the complexity of public sector procurement regimes which are simply too expensive and time-consuming for very small organizations to engage with. By simplifying procurement practices – or even by being transparent about the level of purchase below which competitive procurement does not apply – the level of engagement between city authorities and these communities could be increased. Bridging organisations can also play a positive role here, such as Sustainable Enterprise Strategies (SES) in Sunderland. SES provide support to the local social enterprise community and act as a link between that community and the City Council.

Local entrepreneurs and innovators often have limited resources. On their own, they are unlikely to implement such Smarter City infrastructures as energy grids or real-time transport information systems, for example. But collectively, their ideas could contribute significantly to the business case for a local authority to invest in such infrastructures. By engaging with this community extensively, a portfolio of potential innovations and outcomes can be created to demonstrate the value of such investments. By drawing on the collective creative energies of the city in this way, that portfolio is likely to contain many more ideas than could be obtained from central agencies alone.

4. Explore the cost-saving potential of Smarter technologies

At the heart of Smarter Cities is the idea that information integration and analytic technologies allow better, more forward looking decisions to be taken within cities; with the potential both to improve outcomes and to reduce costs. Whereas the desired outcomes may be citywide and social or environmental in nature rather than directly financial, many case studies show that short-term cost reductions can also be achieved within a single investing organisation. These cost reductions, of course, can then be the basis of an investment case – as they were for Sunderland’s City Cloud.

The London Borough of Brent in the UK, for example, realised significant cost savings by reducing error and fraud using such technologies, as did Alameda County in the US, who also identified new revenue opportunities (see this case study and this video).

As I dicussed in an earlier blog post exploring this topic, if these technologies are deployed on the shared IT platforms described above, then once in place they can be re-used for other purposes. This might lower the cost of deploying subsequent solutions elsewhere in city systems, such as traffic prediction for commuters in order to reduce the congestion that lowers economic productivity and job creation in cities; or predictive analytics to enable preventative approaches to social care, as demonstrated by Medway Youth Trust.

5. Could Smarter Cities be sponsored?

The Miami Dolphin’s Sun Life Stadium photographed by Bob Brown

In recent times we have become used to the idea that sports stadiums take their names from sponsors who fund the teams that own them, such as Arsenal Football Club’s Emirates Stadium. Such facilities are cities in microcosm in many respects, operating their own power, transport, safety and other systems analogous to those found in cities. Some, such as the Miami Dolphin’s Sun Life Stadium are already transforming those systems to become Smarter Stadiums.

Other facilities such as ports, airports, industrial plants, shopping malls and University campuses can be considered “micro-cities” in a similar way; and as I have commented before some of these are large enough that transforming their systems can make a significant contribution to transforming the cities in which they are based.

Could the concept of sponsorship be extended beyond sports stadiums? It has certainly been applied to entertainment facilities such as the O² Arena; and many airports have changed their names for marketing and branding purposes. 

I don’t expect we’ll see a city renamed by a corporate sponsor anytime soon, and novels such as Max Barry’s “Jennifer Government” and Rupert Thomson’s “Soft” have cautioned against such ideas. As past controversies around privatisation and commercialisation in areas of education and the justice system suggest, there are certainly city systems for which this idea could be challenging or simply inappropriate. But with cities increasingly conscious of the value of their brands in attracting investment and business, and with local employers conscious of the need for cities to seem attractive to the skilled people they need to employ, the possibilities for sponsorship to support some form of investment in appropriate Smarter City systems or facilities – especially those that are already private sector components of the city ecosystem – could be worth considering.

Funding the Smarter City roadmap

It’s very unlikely that any of the ideas I’ve discussed here will fund an entire Smarter City transformation, of course. But they are all realistic possibilities to fund elements of such a transformation. The challenge for cities is for their stakeholders to come together and agree how they will collectively exploit all of these ideas – and more – in funding the elements of a programme that they agree to undertake together.

Next week I’ll continue this discussion by exploring five more ways for cities to fund and support Smarter initiatives.

Filed under Economics Tagged with , , , , , , , , , , , , , , ,

Four avatars of the metropolis: technologies that will change our cities

August 20, 2012 6 Comments

(Photo of Chicago by Trey Ratcliff)

Many cities I work with are encouraging clusters of innovative, high-value, technology-based businesses to grow at the heart of their economies. They are looking to their Universities and technology partners to assist those clusters in identifying the emerging sciences and technologies that will disrupt existing industries and provide opportunities to break into new markets.

In advising customers and partners on this subject, I’ve found myself drawn to four themes. Each has the potential to cause significant disruptions, and to create opportunities that innovative businesses can exploit. Each one will also cause enormouse changes in our lives, and in the cities where most of us live and work.

The intelligent web

(Diagram of internet tags associated with “Trafalgar” and their connections relevant to the perception of London by visitors to the city by unclesond)

My colleague and friend Dr Phil Tetlow characterises the world wide web as the biggest socio-technical information-computing space that has ever been created; and he is not alone (I’ve paraphrased his words slightly, but I hope he’ll agree I’ve kept the spirit of them intact).

The sheer size and interconnected complexity of the web is remarkable. At the peak of “web 2.0” in 2007 more new information was created in one year than in the preceding 5000 years. More important, though, are the number and speed of  transactions that are processed through the web as people and automated systems use it to exchange information, and to buy and sell products and services.

Larger-scale emergent phenomena are already resulting from this mass of interactions. They include universal patterns in the networks of links that form between webpages; and the fact that the informal collective activity of “tagging” links on social bookmarking sites tends to result in relatively stable vocabularies that describe the content of the pages that are linked to.

New such phenomena of increasing complexity and significance will emerge as the ability of computers to understand and process information in the forms in which it is used by humans grows; and as that ability is integrated into real-world systems. For example, the IBM “Watson” computer that competed successfully against the human champions of the television quiz show “Jeopardy” is now being used to help healthcare professionals identify candidate diagnoses based on massive volumes of research literature that they don’t have the time to read. Some investment funds now use automated engines to make investment decisions by analysing sentiments expressed on Twitter; and many people believe that self-driving cars will become the norm in the future following the award of a driving license to a Google computer by the State of Nevada.

As these astonishing advances become entwined with the growth in the volume and richness of information on the web, the effects will be profound and unpredictable. The new academic discipline of “Web Science” attempts to understand the emergent phenomena that might arise from a human-computer information processing system of such unprecedented scale. Many believe that our own intelligence emerges from complex information flows within the brain; some researchers in web science are considering the possibility that intelligence in some form might emerge from the web, or from systems like it.

That may seem a leap too far; and for now, it probably is. But as cities such as Birmingham, Sunderland and Dublin pursue the “open data” agenda and make progress towards the ideal of an “urban observatory“, the quantity, scope and richness of the data available on the web concerning city systems will increase many-fold. At the same time, the ability of intelligent agents such as Apple’s “Siri” smartphone technology, and social recommendation (or “decision support”) engines such as FourSquare will evolve too. Indeed, the domain of Smarter Cities is in large part concerned with the application of intelligent analytic software to data from city systems. Between the web of information and analytic technologies that are available now, and the possibilities for emergent artificial intelligence in the future, there lies a rich seam of opportunity for innovative individuals, businesses and communities to exploit the intelligent analysis of city data.

Things that make themselves

(Photo of a structure created by a superparamagnetic fluid containing magnetic nanoparticles in suspension, by Steve Jurvetson)

Can you imagine downloading designs for chocolate, training shoes and toys and then making them in your own home, whenever you like? What if you could do that for prosthetic limbs or even weapons?

3D printing makes all of this possible today. While 3D printers are still complex and expensive, they are rapidly becoming cheaper and easier to use. In time, more and more of us will own and use them. My one-time colleague Ian Hughes has long been an advocate; and Staffordshire University make their 3D printer available to businesses for prototyping and exploratory use.

Their spread will have profound consequences. Gun laws currently control weapons which are relatively large and need to be kept somewhere; and which leave a unique signature on each bullet they fire. But if guns can be “printed” from downloadable designs whenever they are required  – and thrown away afterwards because they are so easy to replace – then forensics will rarely in future have the opportunity to match a bullet to a gun that has been fired before. Enforcement of gun ownership will require the restriction of access to digital descriptions of gun designs. The existing widespread piracy of music and films shows how hard it will be to do that.

3D printers, combined with technologies such as social media, smart materials, nano- and bio-technology and mass customisation, will create dramatic changes in the way that physical products are designed and manufactured – or even grown. For example CocoWorks, a collaboration involving Warwick University, uses a combination of social media and 3D printing to allow groups of friends to collectively design confectionery that they can then “print out” and eat.

These changes will have significant implications for city economies. The reduction in wage differentials between developed and emerging economies already means that in some cases it is more profitable to manufacture locally in rapid response to market demand than to manufacture globally at lowest cost. In the near-future technology advances will accelerate a convergence between the advanced manufacturing, design, communication and information technology industries that means that city economic strategies cannot afford to focus on any of them separately. Instead, they should look for new value at the evolving intersections between them.

Of mice, men and cyborgs

(Professor Kevin Warwick, who in 2002 embedded a silicon chip with 100 spiked electrodes directly into his nervous system. Photo by M1K3Y)

If the previous theme represents the convergence of the information world and products and materials in the physical world; then we should also consider convergence between the information world and living beings.

The “mouse” that defined computer usage from the 1980s through to the 2000s was the first widely successful innovation in human/computer interaction for decades; more recently, the touchscreen has once again made computing devices accessible or acceptable to new communities. I have seen many people who would never choose to use a laptop become inseparable from their iPads; and two-year-old children understand them instinctively. The world will change as these people interact with information in new ways.

More exciting human-computer interfaces are already here – Apple’s intelligent agent for smartphones, “Siri”; Birmingham City University’s MotivPro motion-capture and vibration suit; the Emotiv headset that measures thoughts and can interpret them; and Google’s augmented reality glasses.

Even these innovations have been surpassed by yet more intimate connections between ourselves and the information world. Professor Kevin Warwick at Reading University has pioneered the embedding of technology into the human body (his own body, to be precise) since 2002; and in the effort to create ever-smaller pilotless drone aircraft, control technology has been implanted into insects. There are immense ethical and legal challenges associated with these developments, of course. But it is certain that boundaries will crumble between the information that is processed on a silicon substrate; information that is processed by DNA; and the actions taken by living people and animals.

Historically, growth in Internet coverage and bandwidth and the progress of digitisation technology led to the disintermediation of value chains in industries such as retail, publishing and music. As evolving human/computer interfaces make it possible to digitise new aspects of experience and expression, we will see a continuing impact on the media, communication and information industries. But we will also see unexpected impacts on industries that we have assumed so far to be relatively immune to such disruptions: surgery, construction, waste management, landscape gardening and arbitration are a few that spring to mind as possibilities. (Google futurist Thomas Frey speculated along similar lines in his excellent article “55 Jobs of the Future“).

Early examples are already here, such as Paul Jenning’s work at Warwick University on the engineering of the emotional responses of drivers to the cars they are driving. Looking ahead, there is enormous scope amidst this convergence for the academic, entrepreneurial and technology partners within city ecosystems to collaborate to create valuable new ideas and businesses.

Bartering 2.0

(Photo of the Brixton Pound by Matt Brown)

Civilisation has grown through the specialisation of trades and the diversification of economies. Urbanisation is defined in part by these concepts. They are made possible by the use of money, which provides an abstract quantification of the value of diverse goods and services.

However, we are increasingly questioning whether this quantification is complete and accurate, particularly in accounting for the impact of goods and services on the environments and societies in which they are made and delivered.

Historically, money replaced bartering,  a negotiation of the comparative value of goods and services within an immediate personal context, as the means of quantifying transactions. The abstraction inherent in money dilutes some of the values central to the bartering process. The growing availability of alternatives to traditional bartering and money is making us more conscious of those shortcomings and trade-offs.

Social media, which enables us to make new connections and perform new transactions, combined with new technology-based local currencies and trading systems, offer the opportunity to extend our personalised concepts of value in space and time when negotiating exchanges; and to encourage transactions that improve communities and their environments.

It is by no means clear what effect these grass-roots innovations will have on the vast system of global finance; nor on the social and environmental impact of our activities. But examples are appearing everywhere; from the local, “values-led” banks making an impact in America; to the widespread phenomenon of social enterprise; to the Brixton and Bristol local currencies; and to Droplet, who are aiming to make Birmingham the first city with a mobile currency.

These local currency mechanisms have the ability to support marketplaces trading goods and services such as food, energy, transport, expertise and many of the other commodities vital to the functioning of city economies; and those marketplaces can be designed to promote local social and environmental priorities. They have an ability that we are only just beginning to explore to augment and accelerate existing innovations such as the business-to-consumer and business-to-business markets in sustainable food production operated by Big Barn and Sustaination; or what are so far simply community self-help networks such as Growing Birmingham.

As Smarter City infrastructures expose increasingly powerful and important capabilities to such enterprises – including the “civic hacking” movement – there is great potential for their innovations to contribute in significant ways to the sustainable growth and evolution of cities.

Some things never change

Despite these incredible changes, some things will stay the same. We will still travel to meet in person. We like to interact face-to-face where body language is clear and naturally understood, and where it’s pleasant to share food and drink. And the world will not be wholly equal. Humans are competitive, and human ingenuity will create things that are worth competing for. We will do so, sometimes fairly, sometimes not.

It’s also the case that predictions are usually wrong and futurologists are usually mistaken; so you have good cause to disregard everything you’ve just read.

But whether or not I have the details right, these trends are real, significant, and closer to the mainstream than we might expect. Somewhere in a city near you, entrepreneurs are starting new businesses based on them. Who knows which ones will succeed, and how?

Filed under Science & Technology Tagged with , , , , , , , , , , , , , , , , , , , , , , ,

The amazing heart of a Smarter City: the innovation boundary

August 13, 2012 23 Comments

(Photo of a mouse by pure9)

Innovation has always been exciting, interesting and valuable; but recently it’s become essential.

The “mouse” that defined computer usage from the 1980s through to the 2000s was an amazing invention in its time. It was the first widely successful innovation in human/computer interaction since the typewriter keyboard and video display which came decades before it; and it made computers accessible to new communities of people for the first time.

But whilst the mouse, like the touchscreen more recently popularised by the iPhone and iPad, was a great innovation that increased the usability and productivity of personal computers, it wasn’t really necessary for a greater and pressing purpose. Its benefits came later as we explored its capabilities.

We now have a greater purpose that demands innovation: the need to make our cities and communities more sustainable, vibrant and equal in the face of the severe economic, environmental and demographic pressures that we face; and that are well described in the Royal Society’s “People and the Planet” report.

We have already seen those pressures create threats to food and energy security; and in recent months I’ve spoken to city leaders who are increasingly concerned with the difference in life expectancy between the most affluent and most deprived areas of their cities – it can be 10 years or more. There are much worse inequalities on a global scale, of course. But this is a striking local difference in the basic opportunity of people to live.

Barnett Council in North London famously predicted recently that within 20 years, unless significant changes in public services are made, they will be unable to afford to provide any services except social care. There will be no money left to collect waste, run parks and leisure facilities, clean streets or operate any of the other services that support and maintain cities and communities. I have spoken informally to other Councils who have come to similar conclusions.

All the evidence, including the scientific analysis of the behaviour and sustainability of city systems by the Physicist Geoffrey West, points to the need to create innovations that change the way that cities work.

But where will this innovation come from?

I think innovation of this sort takes place at an “innovation boundary”: the boundary between capability and need.

When a potentially transformative infrastructure such as a Smarter City technology platform is designed and deployed well, then the services it provides precisely embody that boundary.

This idea is fundamental to the concept of Smarter Cities, where we are concerned with the capability of technology to transform cities. Technology vendors – including, but not limited to, my employer IBM – are sometimes expected to use the Smarter City movement as a channel through which to sell generic technology platforms. As vendors, we do deliver technology platforms for cities, and they are part of the capability required to transform them. But they are not the only part – far from it. And they must not be generic.

(A smartphone alert sent to a commuter in a San Francisco pilot project by IBM Research and Caltrans that provides personalised daily predictions of commuting journey times – and suggestions for alternative routes.)

As I hope regular readers of this blog will know, I often explore the role of people and communities in transforming how cities work. A city is the combined effect of the behaviour of all of the people in it – whether they are buying food in a supermarket, traveling to work, relaxing in a park, planning an urban development or teaching in a school. No infrastructure – whether it is a road, a building, a broadband network or an intelligent energy grid – will have a transformative effect on a city unless it engages with individuals in a way that results in a change of behaviour. Work by my colleagues in IBM on transportation in California (pictured, left) and on water and energy usage in Dubuque, Iowa provide examples of what can be achieved when technology solutions are designed in the context of individual and community behaviour.

The innovations that discover how technology can change behaviour are sometimes very localised. They can be specific to the nature, challenges and opportunities of local communities; and are often therefore created by individuals, entrepreneurs, businesses and social enterprises within them. The “civic hacking” and “open data” movements are great examples of this sort of creativity.

But this is not the only sort of innovation that is required to enable Smarter City transformations. The infrastructures that support cities literally provide life-support to hundreds of thousands or millions of individuals. They must be highly resilient, performant and secure – particularly as they become increasingly optimised to support larger and larger city populations sustainably.

The invention, design, deployment and operation of Smarter City infrastructures require the resources of large organisations such as technology vendors, infrastructure providers, local governments and Universities who are able to make significant investments in them.

The secret to successfully transforming cities lies at the boundary between local innovations and properly engineered platforms. “Smarter City” transformations are effective when new and resilient information infrastructures are designed and deployed to meet the specific needs of city communities. One size does not fit all.

A technology infrastructure is no different in this regard to a physical infrastructure such as a new urban highway. In each case, there are some requirements that are obvious and generic – getting traffic in and out of a city centre more efficiently; or  making superfast broadband connectivity universally accessible. But other crucially important requirements are more complex, subtle and varied. How can a new road be integrated into the existing environment of a city so that local communities benefit from it, and so that it does not divide them? What access points, support and funding assistance are needed so that communities can use superfast broadband networks; and what services and information can be delivered to them using those networks that will make a difference?

If we understand those requirements, we can design infrastructures that properly support the innovation boundary. Doing so demands that we address three challenges:

Firstly, we must identify the specific information and technology services that can be provided to individuals, communities, entrepreneurs, businesses and social enterprises to help them succeed and grow. I’ve referred many times to the Knight Foundation’s excellent work in this area; it has inspired my own work with entrepreneurs and social enterprises in Sunderland and elsewhere.

(Meeting with social entrepreneurs in Sunderland to understand how new technology can help them)

Secondly, we need to understand and then supply the heavily engineered capabilities that are beyond the means of local communities to deliver for themselves; but that which enable them to create innovations with real significance.

At the 3rd EU Summit on Future Internet, Juanjo Hierro, Chief Architect for the FI-WARE “future internet platform” project, addressed this topic and identified the specific challenges that local innovators need help to overcome, and that could by provided by city information infrastructures. His challenges included: real-time access to information from physical city infrastructures; tools for analysing “big data“; and access to technologies to ensure privacy and trust. As we continue to engage with communities of innovators in cities, we will discover other requirements of this sort.

Finally, the boundary needs to be defined by standards. Many cities will deploy many information infrastructures, and many different vendors will be involved in supplying them. In order that successful local innovations can spread and interact with each other, Smarter City infrastructures should support Open Standards and interoperability with Open Source technologies.

It will take work to achieve that, of course. It is very easy to underestimate the complexity of the standards required to achieve interoperability. For example, in order to make it possible to safely change something as simple as a lightbulb, standards for voltage, power, physical dimensions, brightness, socket shape and fastening type, fragility and heat output are required. Some standards for Smarter City infrastructures are already in place – for example, Web services and the Common Alerting Protocol – but many others will need to be invented and encouraged to spread. Fortunately, the process is already underway. As an example, IBM recently donated MQTT, a protocol for connecting information between small devices such as sensors and actuators in Smarter City systems to the Open Source community.

(The first “Local Gov Camp” unconference in 2009, attended by community innovators with an interest in transforming local services, held in Fazeley Studios in Birmingham. Photo by s_p_a_c_e_m_a_n)

In the meantime, the innovation boundary is an amazing place to work. It puts me in contact with the leading edge of technology development – with IBM Research, and with new products such as the Intelligent Operations Centre for Smarter Cities. And it offers me the chance to collaborate with the academic institutions and thought-leaders who are defining the innovation boundary through initiatives such as “disruptive business platforms” (see this work from Imperial college, or these thoughts from my colleague Pete Cripps).

But more importantly, my work puts me in touch with innovators who are creating exciting and inspiring new ways for cities to work; often in the communities that need the most help, such as Margaret Elliott in Sunderland; Mark Heskett-Saddington of Sustainable Enterprise Strategies; and the team at Droplet in Birmingham.

I count myself terrifically honoured and lucky to have the privilege of working with them.

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

From Christmas lights to bio-energy: how technology will change our sense of place

August 2, 2012 13 Comments

(Photo of Vancouver from the waterfront in Kitsilano by James Wheeler)

Why do we care about cities?

Why are private sector companies, public sector authorities and organisations such as the European Union making such enormous investments in “Smarter Cities“, “Sustainable Cities” and “Future Cities”?

Usually we would say it’s because of a combination of social, environmental and economic challenges facing us all. But there’s a powerful personal force at work too: where we live matters to us.

The choices that the 7 billion of us who share the planet make that are affected by our relationship with the places where we live have an incredible impact, especially when they are concentrated in cities. For example, the combined carbon impact of those who commute into cities to work each day because they choose to live in the less densely populated areas outside them is immense.

If we’re going to succeed in facing the significant challenges facing us, we need to exploit the powerful connections between people and places to motivate us to choose and behave differently.

The super-rich own houses around the world and have the means to travel between them as they choose or as their business demands it; and some professionals or tradespeople choose or accept a life that involves constant travel in the interests of work and employment. But on the whole, these are the exceptions.

Humans are physical not virtual. Whilst we move or travel from time to time out of choice or necessity, most people work and live day-by-day within a place. Some people and communities face challenges of social and transport mobility, and simply have no choice about where they live. Others may have some choice of location, but are limited by means to investing in living in one place. To a greater or lesser degree we all want to make the most of that investment, and don’t want to relocate too often or travel too far or frequently away from home in order to work.

The value we perceive in our connections to places is determined by their physicality, economics and communities. Many cities and regions exploit this by publicising the attractive qualities of the environment that they can offer – to individuals looking for homes, or to businesses looking for locations to operate from. Whilst the qualities of natural geography are certainly an important contributor to the quality of those environments, many of the other factors are to do with the people within them.

The choices and actions of people can have unusual effects on their environment; for example, the residents of Broadwater Road in Southampton choose collectively to mount striking lighting displays on their houses every Christmas. Or local regulations can constrain the choices of residents to achieve sometimes impressive results, such as in the beautiful urban village of Bourneville in Birmingham.

(Photo of the beautifully maintained frontage of houses in Bournville, Birmingham, by C. Wess Daniels)

Place and economy have many and complex influences on each other. The “Silicon Roundabout” cluster of entrepreneurial technology businesses in London exists where it does because of a combination of proximity to London’s financial services sector – and its venture capitalisists – and the availability of cheap flats, pubs and food outlets. These latter make it an affordable, attractive place to live for the young people with technology skills that start-up companies need to hire.

In other cases, the influences are less constructive. London’s economy has succeeded through businesses that rely on higly educated, skilled people; who in turn are recompensed with some of the highest wages in the country. Accordingly, house prices are extremely high. This it turn makes it difficult or impossible for many people in careers with more modest salaries to afford housing – for example, teachers. If there’s one thing that educated, successful people can be pretty much guaranteed to care about, it’s providing a high quality education for their children. But their success and affluence makes it hard for teachers to live nearby and provide it.

Modern communication technologies provide new opportunities for communities to form and interact in ways that give them more insight into and control over the impact of their interactions. Somewhere between the inventions of the telegraph and virtual worlds, we passed a tipping point: the earliest technologies were simply means to pass messages between people who already knew each other; the ones we have now – especially social media – enable people to identify, contact and transact with complete strangers based on some common interest.

Some simple examples of these technologies allowing communities to behave in more sustainable ways are the recycling network Freecyle, the LandShare initiative that provides access to untended land to people who want to grow food but don’t have gardens, and Carbon Voyage, one of many platforms that promote the sharing of cars, taxis and other forms of transport.

These technologies gives us the opportunity to build new marketplaces and currencies which can be used to encourage transactions that create social, environmental and economic value for communities. For example, organisations such as Big Barn and Sustaination are building new business-to-consumer and business-to-business marketplaces to encourage more sustainable food production and consumption.

(Photo of a 3D printer at work by Media Lab Prado)

What’s even more interesting is to look ahead to emerging technologies that could make it possible for such community markets to create some very surprising disruptions in the way city systems and some industries work. Smart materials and 3D printers, combined with the reduction in cost differentials between emerging and mature markets, are bringing some striking changes to manufacturing; meaning that in some cases it is more important to be able to manufacture customised items locally in immediate response to individual demand than it is to globally source the lowest cost manufacturer of commodity items.

New innovations in user interfaces are also making it easier to connect people to digital information and services. Whilst significant challenges remain in making such services truly accessible to all, it’s already striking to see tablet computers and e-readers being widely used by people who would never choose to buy or use a laptop. And once you’ve seen how naturally very young toddlers interact with tablet computers in particular, you realise how significantly the world will change in future years.

(Photo of me wearing the Emotiv headset)

Technology has already advanced even further; Emotiv‘s headset, which measures brain activity, has already been used by my colleagues to drive a London Taxi around an airfield by using the headset to monitor their thoughts; and Professor Kevin Warwick of Reading University has pioneered the use of computing technology embedded in our bodies as a means of interacting with information systems in our environment. As such technologies mature and spread they’ll have impacts that are impossible to predict.

The New Optimists, a community of scientists and industry experts came together in Birmingham recently to explore the opportunities that new technologies offer for highly distributed energy production systems in communities. Domestic solar panels are an obvious means to do this; but geo-thermal energy, wind and tidal energy are other candidates. Southampton is already producing its own geo-thermal energy, for example, and Eco-Island are attempting to harness several such approaches to make the Isle of Wight not just self-sufficient in terms of energy, but a net exporter. The European Bio-Energy Research Institution (EBRI) at Aston University in Birmingham is developing new, more efficient means of producing energy from biological waste material such as discarded food. A prototype power-plant is already providing energy to 800 households in Shropshire. The New Optimists discussion looked ahead to the possibility that such technologies could be scaled-down even further for use in individual homes.

The systems exploiting these technologies in communities are winning investment because they are market-based: they create money-flows and revenue streams against which investments can be justified. Whilst their focus is local, it is not isolated: complete self-sufficiency will probably never be achieved, and is usually not the goal. Rather, it’s to maximise the benefits of local trading whilst making the impact of import and export more transparent so that more informed choices can be made.

Such place-based trading networks could connect the choices we make every day more directly with their impact on the places in which we live and work; exploiting our consciousness of the investments we’ve made in those places to persuade us to choose differently to protect and improve them. And if they’re linked sufficiently to the industrial national and international supply chains that provide what can’t be sourced locally, they could take into account the wider social and environmental impact of imported goods and services too. Of course, that will only be achieved if those systems are made more transparent, but the pressure to do that already exists. And the more we have the means to exploit transparency, the more effective that pressure will be.

We want to make our cities and lives more sustainable because we’re conscious of the environmental, social and economic challenges facing our planet; we’re most likely to do so through choices that have positive impacts we can see on the places where we live. Technology will continue to provide new mechanisms that can make such choices available to us; but its down to us as individuals and communities to harness and use them.

Filed under Urbanism Tagged with , , , , , , , , , , , , , ,

Can cities break Geoffrey West’s laws of urban scaling?

July 23, 2012 23 Comments

(Photo of Kowloon by Frank Müller)

As I mentioned a couple of weeks ago, I recently read Geoffrey West’s fascinating paper on urban scaling laws, “Growth, innovation, scaling and the pace of life in cities“.

The paper applies to cities techniques that I recall from my Doctoral studies in the Physics and Engineering of Superconducting Devices for studying the emergent properties of self-organising complex systems.

Cities, being composed of 100,000s or millions of human beings with free-will who interact with each other, are clearly examples of such complex systems; and their emergent properties of interest include economic output, levels of crime, and expenditure on maintaining and expanding physical infrastructures.

It’s a less intimidating read than it might sound, and draws fascinating conclusions about the relationship between the size of city populations; their ability to create wealth through innovation; sustainability; and what many of us experience as the increasing speed of modern life.

I’m going to summarise the conclusions the paper draws about the characteristics and behaviour of cities; and then I’d like to challenge us to change them.

Professor West’s paper (which is also summarised in his excellent TED talk) uses empirical techniques to present fascinating insights into how cities have performed in our experience so far; but as I’ve argued before, such conclusions drawn from historic data do not rule out the possibility of cities achieving different levels of performance in the future by undertaking transformations.

That potential to transform city performance is vitally important in the light of West’s most fundamental finding: that the largest, densest cities currently create the most wealth most efficiently. History shows that the most successful models spread, and in this case that could lead us towards the higher end of predictions for the future growth of world population in a society dominated by larger and larger megacities supported by the systems I’ve described in the past as “extreme urbanism“.

I personally don’t find that an appealing vision for our future so I’m keen to pursue alternatives. (Note that Professor West is not advocating limitless city growth either; he’s simply analysing and reporting insights from the available data about cities, and doing it in an innovative and important way. I am absolutely not criticising his work; quite the oppostite – I’m inspired by it).

So here’s an unfairly brief summary of his findings:

  • Quantitative measures of the creative performance of cities (such as wealth creation or the number of patents and inventions generated by city populations) – grow faster and faster the more that city size increases.
  • Quantitative measures of the cost of city infrastructures grow more slowly as city size increases, because bigger cities can exploit economies of scale to grow more cheaply than smaller cities.

West found that these trends were incredibly consistent across cities of very different sizes. To explain the consistency, he drew an analogy with biology: for almost all animals, characteristics such as metabolic rate and life expectancy vary in a very predictable way according to the size of the animal.

(Photo of Geoffery West describing the scaling laws that determine animal characteristics by Steve Jurvetson). Note that whilst the chart focusses on mammals, the scaling laws are more broadly applicable.

The reason for this is that the performance of the thermodynamic, cardio-vascular and metabolic systems that support most animals in the same way are affected by size. For example, geometry determines that the surface area of small animals is larger compared to their body mass than that of large animals. So smaller animals lose heat through their skin more rapidly than larger animals. They therefore need faster metabolic systems that convert food to replacement heat more rapidly to keep them warm. This puts more pressure on their cardio-vascular systems and in particular their heart muscles, which beat more quickly and wear out sooner. So mice don’t live as long as elephants.

Further, more complex mechanisms are also involved, but they don’t contradict the idea that the emergent properties of biological systems are determined by the relationship between the scale of those systems and the performance of the processes that support them.

Professor West hypothesised that city systems such as transportation and utilities, as well as characteristics of the way that humans interact with each other, would similarly provide the underlying reasons for the urban scaling laws he observed.

Those systems are exactly what we need to affect if we are to change the relationship between city size and performance in the future. Whilst the cardio-vascular systems of animals are not something that animals can change, we absolutely can change the way that city systems behave – in the same way that as human beings we’ve extended our life expectancy through ingenuity in medicine and improvements in standards of living. This is precisely the idea behind Smarter cities.

(A graph from my own PhD thesis showing real experimental data plotted against a theoretical prediction similar to a scaling law. 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 most circumstances, theory is only a rough guide to reality.)

The potential to do this is already apparent in West’s paper. In the graphs it presents that plot the performance of individual cities against the predictions of urban scaling laws, the performance of every city varies slightly from the law. Some cities outperform, and some underperform. That’s exactly what we should expect when comparing real data to an analysis of this sort. Whilst the importance of these variations in the context of West’s work is hotly contested, both in biology and in cities, personally I think they are crucial.

In my view, such variations suggest that the best way to interpret the urban scaling laws that Professor West discovered is as a challenge: they set the bar that cities should try to beat.

Cities everywhere are already exploring innovative, sustainable ways to create improvements in the performance of their social, economic and environmental systems. Examples include:

(Photograph by Meshed Media of Birmingham’s Social Media Cafe, where individuals from every part of the city who have connected online meet face-to-face to discuss their shared interest in social media.)

In all of those cases, cities have used technology effectively to disrupt and transform the behaviour of urban systems. They have all lifted at least some elements of performance above the bar set by urban scaling laws. There are many more examples in cities across the world. In fact, this process has been taking place continuously for as long as cities have existed – see, for example, the recent Centre for Cities report on the development and performance of cities in the UK throughout the 20th Century.

That report contains a specific challenge for Birmingham, my home city. It shows that in the first part of the 20th Century, Birmingham outperformed many UK cities and became prosperous and successful because of the diversity of its industries – famously expressed as the “city of a thousand trades”. In the latter part of the Century, however, as Birmingham became more dependent on an automotive industry that subsequently declined, the city lost a lot of ground. Birmingham is undertaking some exciting regenerative initiatives at present – such as the City Deal that increases it’s financial independence from Central Government; the launch of a Green Commission; and investments in ultra-fast broadband infrastructure. They are vitally important in order for the city to re-create a more vibrant, diverse, innovative and successful economy.

As cities everywhere emulate successful innovations, though, they will of course reset the bar of expected performance. Cities that wish to consistently outperform others will need to constantly generate new innovations.

This is where I’ll bring in another idea from physics – the concept of a phase change. A phase change occurs when a system passes a tipping point and suddenly switches from one type of behaviour to another. This is what happens when the temperature of water in a kettle rises from 98 to 99 to 100 degrees Centigrade and water – which is heavy and stays in the bottom of the kettle – changes to steam – which is light and rises out of the kettle’s spout. The “phase change” in this example is the transformation of a volume of water from a liquid to a gas through the process of boiling.

So the big question is: as we change the way that city systems behave, will we eventually encounter a phase change that breaks West’s fundamental finding that the largest cities create the most value most efficiently? For example, will we find new technologies for communication and collaboration that enable networks of people spread across thousands of miles of countryside or ocean to be as efficiently creative as the dense networks of people living in megacities?

I certainly hope so; because unless we can break the link between the size and the success of cities, I worry that the trend towards larger and larger cities and increasing global population will continue and eventually reach levels that will be difficult or impossible to maintain. West apparently agrees; in an interview with the New York Times, which provides an excellent review of his work, he stated that “The only thing that stops the superlinear equations is when we run out of something we need. And so the growth slows down. If nothing else changes, the system will eventually start to collapse.”

But I’m an optimist; so I look forward to the amazing innovations we’re all going to create that will break the laws of urban scaling and offer us a more attractive and sustainable future. It’s incredibly important that we find them.

(I’d like to think Dr. Pam Waddell, the Director of Birmingham Science City, for her helpful comments during my preparation of this post).

Filed under Science & Technology Tagged with , , , , , , , , , , , , , , , , ,

Older posts

Newer posts