A typology of street patterns

by Marlena Zakrzewska on October 21, 2014

The interrelationship between transport, streets, and urban patterns, which has been the focus of multiple professions including urban planning, architecture, geography, and transport engineering is truly fascinating.

submap2Journal of the Royal Society Interface propose a quantitative method to classify cities according to their street pattern. They   use the conditional probability distribution of shape factor of blocks with a given area, and define what could constitute the `fingerprint’ of a city.

By using a simple hierarchical clustering method, these fingerprints can then serve as a basis for a typology of cities. At a lower level of the classification, the  findings prove  that most European cities and American cities  fall in their own sub-category, highlighting quantitatively the differences between the typical layouts of cities in both regions.

This method provides a quantitative comparison of urban street patterns, which could be helpful for a better understanding of the causes and mechanisms behind their distinct shapes.

Accordingly to MIT Technology Review most older European cities have grown organically, usually before the advent of cars, with their road layout largely determined by factors such as local geography. By contrast, the growth of many American cities occurred after the development of cars and their road layout was often centrally planned using geometric grids.

However, despite the fact that the differences in the typology of streets are rather easy to notice, there has been  no objective way to capture that difference yet.

Until…today!

nicolas-jolly-fingerprint-07Thanks to the work of Rémi Louf and Marc Barthelemy at the Institut de Physique Théorique, since they managed to decode the unique  “fingerprint” of a city’s road layout as well as to  classify and compare the unique layouts of cities all over the world for the first time.

Capturing the geometry of city blocks is not a straightforward task, nevertheless, Louf and Barthelemy learnt to do it by using  using the ratio of a block’s area to the area of a circle that encloses it.

This quantity is always less than 1 and the smaller its value, the more exotic and extended the shape. The researchers then plot the distribution of block shapes for a given city.

However, this shape distribution by itself is not enough to account for visual similarities and dissimilarities between street patterns, because blocks can have similar shapes but very different areas. The resulting plot is the unique fingerprint that characterizes each city.

Some Examples

About Marlena Zakrzewska :

Marlena is a consultant with Bearing, with a strong background in analysis, cognitive and behavioural studies and innovation.

Marlena was educated at King’s College London and Humboldt University Berlin, and has been involved in extensive studies regarding social psychology and consumer behaviour.

She believes that by understanding what affects behaviour and, by extension, how to influence behaviour, both organisations and individuals can become more successful. Understanding exactly how small changes to the details of an offer can influence the way people react to it is crucial to unlock significant value.

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