Robustness analysis of interdependent PV grids and communication network based on complex network

被引:0
|
作者
Xinwen F. [1 ,2 ,3 ]
Xiangming W. [1 ,2 ,3 ]
Zhaoming L. [1 ,2 ,3 ]
Chunlei S. [1 ,2 ,3 ]
Xi H. [4 ]
机构
[1] School of Information and Communication Engineering, Beijing University of Posts and Telecommunications, Beijing
[2] Beijing Key Laboratory of Network System Architecture and Convergence, Beijing University of Posts and Telecommunications, Beijing
[3] Beijing Laboratory of Advanced Information Networks, Beijing University of Posts and Telecommunications, Beijing
[4] Electronic Information Engineering, North China University of Technology, Beijing
来源
Xinwen, Fan (fanxw@bupt.edu.cn) | 2018年 / Beijing University of Posts and Telecommunications卷 / 25期
关键词
Cascading failure; Interdependent system; Minimum removed nodes number (MRNN);
D O I
10.19682/j.cnki.1005-8885.2018.0029
中图分类号
学科分类号
摘要
Currently' the photovoltaic (PV) cloud network is an important research point in energy Internet. From the perspective of the robustness analysis of PV cloud network' traditional robustness index' the relative size of the giant connected component before and after the cascading' which is focused on the giant component' is not appropriate for the distributed PV network because of the big difference between PV generators and large power grid. In this paper' a new index is proposed' the minimum removed nodes number (MRNN) ' which can make the entire system collapse' to evaluate the robustness of PV cloud network system. Simulation results show that MRNN can clearly indicate the system robustness under different parameters. © 2018 Editorial Department. All rights reserved.
引用
收藏
页码:60 / 66
页数:6
相关论文
共 50 条
  • [1] Robustness analysis of interdependent PV grids and communication network based on complex network
    Fan Xinwen
    Wen Xiangming
    Lu Zhaoming
    Sun Chunlei
    Han Xi
    The Journal of China Universities of Posts and Telecommunications, 2018, 25 (05) : 60 - 66
  • [2] Robustness of Interdependent Power Grids and Communication Networks: A Complex Network Perspective
    Chen, Zhenhao
    Wu, Jiajing
    Xia, Yongxiang
    Zhang, Xi
    IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS, 2018, 65 (01) : 115 - 119
  • [3] On an Interdependent Communication Network
    K. Srinivasa Rao
    M. R. Vasanta
    C. V. R. S. Vijaya Kumar
    OPSEARCH, 2000, 37 (2) : 134 - 143
  • [4] Robustness Analysis of the Complex Network
    Liang, Mingxin
    Liu, Fanzhen
    Gao, Chao
    Zhang, Zili
    2017 6TH DATA DRIVEN CONTROL AND LEARNING SYSTEMS (DDCLS), 2017, : 638 - 643
  • [5] Robustness analysis of power system based on a complex network
    Zhou D.
    Hu F.
    Chen J.
    Dianli Xitong Baohu yu Kongzhi/Power System Protection and Control, 2021, 49 (01): : 72 - 80
  • [6] Method to analyse the robustness of aviation communication network based on complex networks
    Zhang, Chao
    Zhang, Feng-Ming
    Wang, Ying
    Wu, Hu-Sheng
    Xi Tong Gong Cheng Yu Dian Zi Ji Shu/Systems Engineering and Electronics, 2015, 37 (01): : 180 - 184
  • [7] Power network robustness analysis based on electrical engineering and complex network theory
    Zhou, Dongyue
    Hu, Funian
    Wang, Shuliang
    Chen, Jun
    PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS, 2021, 564
  • [8] Integrated Avionics System Network Function Robustness Analysis based on Complex Network
    Ji, Qiang
    Yang, Qiming
    Zhang, Jiandong
    Shi, Guoqing
    PROCEEDINGS OF THE 2017 INTERNATIONAL CONFERENCE ON ELECTRONIC INDUSTRY AND AUTOMATION (EIA 2017), 2017, 145 : 181 - 185
  • [9] Determining the robustness of an interdependent network with a hypergraph model
    Shirdel, Gholam Hasan
    Mortezaee, Ameneh
    ELECTRONIC JOURNAL OF GRAPH THEORY AND APPLICATIONS, 2020, 8 (01) : 113 - 122
  • [10] Robustness of interdependent hypergraphs: A bipartite network framework
    Pan, Xingyu
    Zhou, Jie
    Zhou, Yinzuo
    Boccaletti, Stefano
    Bonamassa, Ivan
    PHYSICAL REVIEW RESEARCH, 2024, 6 (01):
12345