Cascading Failure Analysis on Shanghai Metro Networks: An Improved Coupled Map Lattices Model Based on Graph Attention Networks

Analysis of the robustness and vulnerability of metro networks has great implications for public transport planning and emergency management, particularly considering passengers’ dynamic behaviors. This paper presents an improved coupled map lattices (CMLs) model based on graph attention networks (GAT) to study the cascading failure process of metro networks. The proposed model is applied to the Shanghai metro network using the automated fare collection (AFC) data, and the passengers’ dynamic behaviors are simulated by GAT. The quantitative cascading failure analysis shows that Shanghai metro network is robust to random attacks, but fragile to intentional attacks. Moreover, there is an approximately normal distribution between instant cascading failure speed and time step and the perturbation in a station which leads to steady state is approximately a constant. The result shows that a station surrounded by other densely distributed stations can trigger cascading failure faster and the cascading failure triggered by low-level accidents will spread in a short time and disappear quickly. This study provides an effective reference for dynamic safety evaluation and emergency management in metro networks.

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Cascading failure analysis and robustness optimization of metro networks based on coupled map lattices: a case study of Nanjing, China

Transportation ◽

10.1007/s11116-019-10066-y ◽

2019 ◽

Cited By ~ 3

Author(s):

Yi Shen ◽

Gang Ren ◽

Bin Ran

Keyword(s):

Failure Analysis ◽

Cascading Failure ◽

Coupled Map Lattices ◽

Robustness Optimization ◽

Metro Networks

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Resilience Analysis of Metro Networks: A Case Study of Shanghai Metro Network

Geo-Risk 2017 ◽

10.1061/9780784480700.024 ◽

2017 ◽

Author(s):

Fei Du ◽

Hongwei Huang ◽

Dongming Zhang ◽

Fan Zhang

Keyword(s):

Metro Networks ◽

Shanghai Metro ◽

Metro Network

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Coordinated cyber-physical attacks based on different attack strategies for cascading failure analysis in smart grids

Wireless Networks ◽

10.1007/s11276-021-02752-6 ◽

2021 ◽

Author(s):

Wenjie Kang ◽

Qiang Liu ◽

Peidong Zhu ◽

Wei Zhao ◽

Xuchong Liu ◽

...

Keyword(s):

Failure Analysis ◽

Smart Grids ◽

Cascading Failure

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Meta-Heuristic Approach for Validation and Calibration of Cascading Failure Analysis

2018 IEEE International Conference on Probabilistic Methods Applied to Power Systems (PMAPS) ◽

10.1109/pmaps.2018.8440477 ◽

2018 ◽

Author(s):

Bing Li ◽

Blazhe Gjorgiev ◽

Giovanni Sansavini

Keyword(s):

Failure Analysis ◽

Heuristic Approach ◽

Cascading Failure

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Interdependent Network Cascading Failure Analysis Based on Load Distribution and Node Backup Strategy

2019 Chinese Control Conference (CCC) ◽

10.23919/chicc.2019.8866543 ◽

2019 ◽

Author(s):

Huan Li ◽

Lifu Wang ◽

Zhijie Sun ◽

Xiaona Wang

Keyword(s):

Failure Analysis ◽

Load Distribution ◽

Cascading Failure ◽

Interdependent Network

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Study of the Structural and Robustness Characteristics of Madrid Metro Network

Sustainability ◽

10.3390/su11123486 ◽

2019 ◽

Vol 11 (12) ◽

pp. 3486 ◽

Cited By ~ 2

Author(s):

Elisa Frutos Bernal ◽

Angel Martín del Rey

Keyword(s):

Network Analysis ◽

Qualitative Analysis ◽

Smart Cities ◽

Transport Networks ◽

Ideal Candidate ◽

Transportation Service ◽

Topological Characteristics ◽

Metro Networks ◽

The Ideal ◽

Metro Network

A transportation service must be sustainable, respectful of the environment, and socially and economically responsible. These requirements make metro networks the ideal candidate as the most efficient mean of transport in our society. Now, a correct management of this type of infrastructures entails the analysis of the structure and robustness of these networks. This allows us to detect malfunctions and, above all, to design in the most appropriate way the expansion of subway networks. This is one of the major challenges facing the study of transport networks in sustainable smart cities. In this sense, the complex network analysis provides us with the necessary scientific tools to perform both quantitative and qualitative analysis of metro networks. This work deals with Madrid metro network, which is the largest in Spain. The main structural and topological characteristics, and robustness features of Madrid metro network were studied. The results obtained were analyzed and some conclusions were derived.

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Cascading Failure Analysis of Power-communication Networks Considering Packets Priorities

2018 5th IEEE International Conference on Cloud Computing and Intelligence Systems (CCIS) ◽

10.1109/ccis.2018.8691351 ◽

2018 ◽

Author(s):

Xue Li ◽

Ruijie Wang ◽

Zhiqiang Fu ◽

Dajun Du

Keyword(s):

Failure Analysis ◽

Communication Networks ◽

Cascading Failure

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Linear implicit AC PF cascading failure analysis with power system operations and automation

2016 IEEE Power and Energy Society General Meeting (PESGM) ◽

10.1109/pesgm.2016.7741333 ◽

2016 ◽

Cited By ~ 2

Author(s):

Bing Li ◽

Giovanni Sansavini ◽

Saverio Bolognani ◽

Florian Dorfler

Keyword(s):

Power System ◽

Failure Analysis ◽

Cascading Failure ◽

Power System Operations

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Interaction Graphs for Cascading Failure Analysis in Power Grids: A Survey

Energies ◽

10.3390/en13092219 ◽

2020 ◽

Vol 13 (9) ◽

pp. 2219 ◽

Cited By ~ 3

Author(s):

Upama Nakarmi ◽

Mahshid Rahnamay Naeini ◽

Md Jakir Hossain ◽

Md Abul Hasnat

Keyword(s):

Failure Analysis ◽

Power Flow ◽

Power Grid ◽

Power Grids ◽

Physical Models ◽

Cascading Failure ◽

Cascading Failures ◽

Essential Information ◽

Interaction Graphs ◽

Complex Interactions

Understanding and analyzing cascading failures in power grids have been the focus of many researchers for years. However, the complex interactions among the large number of components in these systems and their contributions to cascading failures are not yet completely understood. Therefore, various techniques have been developed and used to model and analyze the underlying interactions among the components of the power grid with respect to cascading failures. Such methods are important to reveal the essential information that may not be readily available from power system physical models and topologies. In general, the influences and interactions among the components of the system may occur both locally and at distance due to the physics of electricity governing the power flow dynamics as well as other functional and cyber dependencies among the components of the system. To infer and capture such interactions, data-driven approaches or techniques based on the physics of electricity have been used to develop graph-based models of interactions among the components of the power grid. In this survey, various methods of developing interaction graphs as well as studies on the reliability and cascading failure analysis of power grids using these graphs have been reviewed.

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Shanghai Metro Flow: Multiple Perspectives into a Subway System

Leonardo ◽

10.1162/leon_a_01234 ◽

2017 ◽

Vol 50 (5) ◽

pp. 511-512

Author(s):

Till Nagel ◽

Benedikt Groß

Keyword(s):

Urban Mobility ◽

Multiple Perspectives ◽

Aesthetic Form ◽

Subway System ◽

Shanghai Metro ◽

The City ◽

Metro Network

One of the main characteristics of cities is the large amount of people moving around. These flows are reflected in all the subways dashing through the city. With the authors’ work, they strive to give an impression of this pulse of the city. They present Shanghai Metro Flow, consisting of an animated visualization composed of three scenes, each giving another perspective into the metro network, and an accompanying poster showing subway line details. Each visualization combines established techniques with a highly aesthetic form in order to attract people to observe and dwell on different aspects of urban mobility.

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