Complex Network Theory Applied to the Growth of Kuala Lumpur’s Public Urban Rail Transit Network

Ding, Rui; Ujang, Norsidah; Hamid, Hussain; Wu, Jianjun

doi:10.1371/journal.pone.0139961

Cited by 57 publications

(24 citation statements)

References 32 publications

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“…On the other hand, it mostly analyzes the PTN complexity in a fixed year. Subsequently, it has developed to analyze the evolution rule of network complexity under long-term scale, which is conducive to provide data accumulation by establishing some correlation between the complexity indicators of PTN and the network growth model (Yan et al [45], Leng et al [57], and Ding et al [58]).…”

Section: Complexitymentioning

confidence: 99%

A Review and Prospect for the Complexity and Resilience of Urban Public Transit Network Based on Complex Network Theory

Zhang

Lü

et al. 2018

Complexity

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The complexity and resilience of urban public transit network (PTN) are the interdisciplinary study area between transportation engineering and system science, which is a good demonstration of applying complex network theory to promote the development of engineering science. The deep understanding of this study helps to provide a new perspective for analyzing the reliability of urban PTN. Following study process of the complexity and resilience of complex network, this paper reviews the complexity and resilience of PTN from four topics, i.e., the PTN complexity, the static resilience of PTN, the dynamic resilience (cascading failures based resilience) of single layered PTN, and the dynamic resilience of interdependent PTN. In the literature review, multiple key items are, respectively, extracted for each topic, and the engineering applicability of each topic is also analyzed, which are both for obtaining the key features of this study area. Finally, in order to realize the development trend of cyclic and forward—complex network theory, network resilience theory, transforming into a realistic model and method that is close to actual public transit operation, engineering application and practice, and contributing to complex network theory, the study status is summarized and the future development trend is prospected.

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Section: Complexitymentioning

confidence: 99%

A Review and Prospect for the Complexity and Resilience of Urban Public Transit Network Based on Complex Network Theory

Zhang

Lü

et al. 2018

Complexity

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“…Network science provides powerful theoretical and practical tools to analyze the structure of complex networks. Many studies have used quantitative methods and techniques based on network theory to analyze diverse transportation systems, for example, urban street networks [1][2][3][4][5][6][7][8][9][10], public transport networks [11][12][13][14][15], rail and subway networks [16][17][18][19][20][21], highway networks [22][23][24], and airline networks [25][26][27][28][29]. These studies are helpful for analyzing the structural characteristics of transport networks and the development of transportation science and engineering applications.…”

Section: Introductionmentioning

confidence: 99%

The Evolution and Growth Patterns of the Road Network in a Medium-Sized Developing City: A Historical Investigation of Changchun, China, from 1912 to 2017

Wang

Kwan

et al. 2019

Sustainability

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Understanding the evolution and growth patterns of urban road networks helps to design an efficient and sustainable transport network. The paper proposed a general study framework and analytical workflow based on network theory that could be applied to almost any city to analyze the temporal evolution of road networks. The main tasks follow three steps: vector road network drawing, topology graph generation, and measure classification. Considering data availability and the limitations of existing studies, we took Changchun, China, a middle-sized developing city that is seldom reported in existing studies, as the study area. The research results of Changchun (1912–2017) show the road networks sprawled and densified over time, and the evolution patterns depend on the historical periods and urban planning modes. The evolution of network scales exhibits significant correlation; the population in the city is well correlated with the total road length and car ownership. Each network index also presents specific rules. All road networks are small-world networks, and the arterial roads have been consistent over time; however, the core area changes within the adjacent range but is generally far from the old city. More importantly, we found the correlation between structure and function of the urban road networks in terms of the temporal evolution. However, the temporal evolution pattern shows the correlation varies over time or planning modes, which had not been reported

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“…The rise and perfection of complex network theory and related methods have provided powerful tools for the analysis of the node characteristics of transportation networks from a network perspective, and, thus, those tools can better express the interactive relationships among the nodes in the network. This theory has been applied with increasing frequency in the transportation system [16][17][18]; for example, complex network theory has been employed in research on aviation networks both nationally (in India and China) and globally [19][20][21][22][23][24][25][26] in addition to studies on the complex subway system networks in Boston, Beijing, and Kuala Lumpur [27][28][29], the characteristics of complex urban road networks [30][31][32] and complex global shipping networks [33][34][35], the topological nature of the Indian railway network [36,37], and the topological features of China's railway network [38,39].…”

Section: Introductionmentioning

confidence: 99%

Exploring the Node Importance and Its Influencing Factors in the Railway Freight Transportation Network in China

Sun

Guo

Jiang

et al. 2019

Journal of Advanced Transportation

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Node importance is a key factor affecting the overall operation efficiency of a railway freight transportation network (RFTN) that can be measured with the indicators of Hub and PageRank. Based on complex network theory and the national railway cargo exchange data of China’s provinces, this study constructs an RFTN model with the 31 provinces as the nodes and measures the values of Hub and PageRank for the 31 provinces. Then, the time evolution law of the importance of the provincial nodes is analyzed comprehensively, and, using a regression model, the influencing factors of the importance of the provincial nodes are identified. The results show the following. (1) The uneven distribution of natural resources will affect the spatial changes in the importance of RFTN nodes. The Hub values tended to cluster around the average, and the economic structure of the output-oriented provinces improved as a whole. At the same time, the PageRank values of many provinces in the central and western regions significantly increased, and those provinces exhibited more frequent exchanges of goods with other provinces and closer economic ties with other regions. (2) The traffic fixed asset investments and the population density have the most obvious influences on the importance of the provincial nodes with a positive effect. In contrast, the railway freight concentration (RFC) coefficient, geographical location (longitude and latitude), and coastal region all have negative effects on the importance of provincial nodes. The results of this study provide scientific decision-making support for the reasonable establishment and distribution of RFTN hubs in China.

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Complex Network Theory Applied to the Growth of Kuala Lumpur’s Public Urban Rail Transit Network

Cited by 57 publications

References 32 publications

A Review and Prospect for the Complexity and Resilience of Urban Public Transit Network Based on Complex Network Theory

A Review and Prospect for the Complexity and Resilience of Urban Public Transit Network Based on Complex Network Theory

The Evolution and Growth Patterns of the Road Network in a Medium-Sized Developing City: A Historical Investigation of Changchun, China, from 1912 to 2017

Exploring the Node Importance and Its Influencing Factors in the Railway Freight Transportation Network in China

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