A Geometric Classification of World Urban Road Networks

Abstract: This article presents a method to uncover universal patterns and similarities in the urban road networks of the 80 most populated cities in the world. To that end, we used degree distribution, link length distribution, and intersection angle distribution as topological and geometric properties of road networks. Moreover, we used ISOMAP, a nonlinear dimension reduction technique, to better express variations across cities, and we used K-means to cluster cities. Overall, we uncovered one universal pattern betwee… Show more

“…As a system of complicated connections of hundreds of cities, the structure of the railway network is affected by a variety of factors, such as political policy, regional population, and geographic conditions, and therefore is commonly studied as a typical complex system. In recent years, the widely used complex network theory [4][5][6] has developed into a powerful tool to analyze the network performance for different transportation modes, including aviation [7][8][9], roads [10,11], and shipping [12][13][14], and also provides a new perspective for understanding how railway transportation systems work. A series of related studies have investigated topological structure, traffic behavior, and cascading failure on continental [15], national [16,17], and urban scales [18,19], respectively.…”

The Evolution of China’s Railway Network (CRN) 1999-2019: Urbanization Impact and Regional Connectivity

“…As a system of complicated connections of hundreds of cities, the structure of the railway network is affected by a variety of factors, such as political policy, regional population, and geographic conditions, and therefore is commonly studied as a typical complex system. In recent years, the widely used complex network theory [4][5][6] has developed into a powerful tool to analyze the network performance for different transportation modes, including aviation [7][8][9], roads [10,11], and shipping [12][13][14], and also provides a new perspective for understanding how railway transportation systems work. A series of related studies have investigated topological structure, traffic behavior, and cascading failure on continental [15], national [16,17], and urban scales [18,19], respectively.…”

The Evolution of China’s Railway Network (CRN) 1999-2019: Urbanization Impact and Regional Connectivity

“…The article, "A Geometric Classification of World Urban Road Networks" by Badhrudeen, Derrible, Verma, Kermanshah, and Furno (2022), focuses on the task of categorizing road networks in 80 of the world's most populated cities. Leveraging complex mathematical techniques and topological properties, the authors identify five unique classes of cities-Gridiron, Long Link, Organic, Hybrid, and Mixed [2]. The significance here is twofold: not only do these classifications reveal innate geometrical patterns across global cities, but they also offer a valuable framework enabling transport planners to customize their policies according to city-specific characteristics.…”

The Implications of Human Mobility and Accessibility for Transportation and Livable Cities

“…Chapter 3. Methodology 3) Road length is a high-level semantic feature extracted from road centerlines, and previous research [62] has proven that a well-trained deep neural network could capture this type of feature. Hence, by setting up length intervals, the network might be able to distinguish different satellite images by road length features.…”

Weakly supervised learning on road area extraction via classification labels