A Systematic Measurement of Street Quality through Multi-Sourced Urban Data: A Human-Oriented Analysis

Int J Environ Res Public Health. 2019 May 20;16(10):1782. doi: 10.3390/ijerph16101782.

Abstract

Many studies have been made on street quality, physical activity and public health. However, most studies so far have focused on only few features, such as street greenery or accessibility. These features fail to capture people's holistic perceptions. The potential of fine grained, multi-sourced urban data creates new research avenues for addressing multi-feature, intangible, human-oriented issues related to the built environment. This study proposes a systematic, multi-factor quantitative approach for measuring street quality with the support of multi-sourced urban data taking Yangpu District in Shanghai as case study. This holistic approach combines typical and new urban data in order to measure street quality with a human-oriented perspective. This composite measure of street quality is based on the well-established 5Ds dimensions: Density, Diversity, Design, Destination accessibility and Distance to transit. They are combined as a collection of new urban data and research techniques, including location-based service (LBS) positioning data, points of interest (PoIs), elements and visual quality of street-view images extraction with supervised machine learning, and accessibility metrics using network science. According to these quantitative measurements from the five aspects, streets were classified into eight feature clusters and three types reflecting the value of street quality using a hierarchical clustering method. The classification was tested with experts. The analytical framework developed through this study contributes to human-oriented urban planning practices to further encourage physical activity and public health.

Keywords: Shanghai; human-oriented; multi-sourced urban data; street quality; systematic measurement; urban design.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Built Environment
  • China
  • City Planning*
  • Cluster Analysis
  • Databases, Factual
  • Exercise
  • Humans
  • Information Storage and Retrieval*
  • Public Health
  • Social Networking
  • Supervised Machine Learning