Urban Transformation

Building the cities of the future means embracing complexity

ATTENTION EDITORS - IMAGE 1 OF 22 OF PICTURE PACKAGE '7 BILLION, 7 STORIES - OVERCROWDED IN HONG KONG. SEARCH 'MONG KOK' FOR ALL IMAGES - People cross a street in Mong Kok district in Hong Kong, October 4, 2011. Mong Kok has the highest population density in the world, with 130,000 in one square kilometre. The world's population will reach seven billion on 31 October 2011, according to projections by the United Nations, which says this global milestone presents both an opportunity and a challenge for the planet. While more people are living longer and healthier lives, says the U.N., gaps between rich and poor are widening and more people than ever are vulnerable to food insecurity and water shortages.   Picture taken October 4, 2011.   REUTERS/Bobby Yip   (CHINA - Tags: SOCIETY) - RTR2SQJP

In the 21st century we recognise and conceive “creative”, “smart” and “knowledge” cities. Image: REUTERS/Bobby Yip

Nicholas Stevens
Senior Lecturer and Researcher, Land Use Planning & Urban Design, University of the Sunshine Coast
Paul Salmon
Professor, Human Factors, University of the Sunshine Coast

The way we design our cities needs a serious rethink. After thousands of years of progress in urban development, we plateaued some 60 years ago. Cities are not safer, healthier, more efficient, or more equitable. They are getting worse on these measures.

The statistics on chronic disease, rising road tolls and congestion in our urban environments paint a bleak future. The clues to why lie in how we think about and design our cities.

Cities are highly complex, yet we are not thinking about them that way. We argue cities are complex and sociotechnical in nature. This means that, stripped back, they comprise people and communities interacting with one another and with objects (such as roads, buildings and parks) within a range of urban settings or contexts.

Complex sociotechnical systems (urban, transportation or warfare) are difficult to analyse. However, ergonomics and human factors methods such as cognitive work analysis allow an understanding of the whole system rather than the parts.

Cognitive work analysis was originally developed to support the analysis and design of complex engineered systems. We are using it to analyse and design cities.

The quest for better cities

Theoretical and practical efforts to create better cities have a long history. Before Walter Christaller’s “central place theory” and Charles Lindblom’s exploration of the “science of muddling through”, there was Ebenezer Howard’s utopian “garden city movement”, the enduring “concentric zone model” of Ernest Burgess, and the “multiple nuclei model” of Chauncy Harris and Edward Ullman.

More recent approaches provide guidance on good city structures relating to quality of life, infrastructure efficiency and city futures. The Congress for the New Urbanism advocates for quality of life through “walkable” urban neighbourhoods. Transit-orientated developments seek to have commercial, residential and community facilities close to public transport.

In the 21st century we recognise and conceive “creative”, “smart” and “knowledge” cities. These focus on the use of human resources, social capital, education, innovation, communication and digital technologies.

We argue that the limitation of these approaches is their reliance on sets of standards and guidelines. They provide reductionist principles for how cities “should” be designed and developed.

While useful for articulating the goals and values we would like for cities, their consequences within the broader city system are not well considered.

Cities as complex sociotechnical systems

The priority of sociological and technological systems is to optimise the interactions between people, technology and environments.

Cognitive work analysis is concerned with constraints rather than goals. It is based on the notion that by making constraints explicit, and exploiting them, we enhance system performance. It comprises interrelated phases including work domain analysis.

This approach allows us to model the city system across five hierarchical levels. This detailed model describes and links the purposes, values and priorities, the activities that are performed, right through to the physical objects that make up the city and the functions they serve.

Image: The Conversation

Work domain analysis in action – tracing how public art contributes to a footpath design.

The findings are compelling. For example, we can show that public art on a footpath has the function of both a landmark and a form of communication, in the same way signage does. This is then linked to improved way-finding, legibility and social interaction in the street. And that, in turn, results in greater levels of perceived and actual safety, user comfort and a sense of community.

Ultimately, this supports both the technical intention of a footpath, as a pedestrian right of way, and its urban design contribution, as an important social place. As it is now possible to understand the system-wide implications of including or excluding key elements, we can start to design better cities.

Additional analyses have focused on: the design of active transport corridors; public space; main streets; school zones; playgrounds; and urban design and CCTV. The findings demonstrate the complexity in these environments and show how existing design approaches may not be fit for purpose.

Exploring a new approach

In a rapidly changing world in which smart cities are desired and urban megacities are a reality, we need to explore new knowledge and new approaches. Current descriptive and disparate approaches to the review, analysis and design of our cities need to be challenged.

The profession and politics of the built environment continue to operate within discipline silos. Planning, architecture, engineering, transport, water, power, commercial and retail development, urban design, community services and more are all dealt with in relative isolation. The links between them are only examined as necessary, or as legislatively required.

As a result, our cities are a legacy of incremental solutions, fragmented decision-making and competing urban priorities.

Managing complexity in city design is challenging. There are very few ways to examine all of the parts of urban development. We contend that ergonomics, human factors and sociotechnical systems methods offer a way forward.

While it may seem far-reaching to apply the methods used to design work, transportation and warfare systems to urban development, it has been shown to have significant value.

Our approach allows decision-makers, designers and the community to understand the complex nature of humans, technology and their environments. It is possible to create cities that cope with complexity rather than collapse under the weight of it.

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