A New Approach to Detecting and Designing Living Structure of Urban Environments

TL;DR

This paper introduces a novel recursive method for detecting the living structure of urban environments, improving upon existing natural street and axial line approaches, with applications in urban design and planning.

Contribution

It develops a new hierarchical decomposition approach to identify urban living structures, enhancing understanding and design of more livable cities.

Findings

The new approach outperforms natural street and axial line methods in case studies.

It effectively captures the hierarchical and coherent nature of urban structures.

The method can be used for both analysis and design of urban environments.

Abstract

Sustainable urban design or planning is not a LEGO-like assembly of prefabricated elements, but an embryo-like growth with persistent differentiation and adaptation towards a coherent whole. The coherent whole has a striking character - called living structure - that consists of far more small substructures than large ones. To detect the living structure, natural streets or axial lines have been previously adopted to be topologically represent an urban environment as a coherent whole. This paper develops a new approach to detecting the underlying living structure of urban environments. The approach takes an urban environment as a whole and recursively decomposes it into meaningful subwholes at different levels of hierarchy or scale ranging from the largest to the smallest. We compared the new approach to natural street and axial line approaches and demonstrated, through four case studies, that the new approach is better and more powerful. Based on the study, we further discuss how the new approach can be used not only for understanding, but also for effectively designing or planning the living structure of an urban environment to be more living or more livable. Keywords: Urban design or planning, structural beauty, space syntax, natural streets, life, wholeness