VULNERABILITY ASSESSMENT OF OIL SPILL DISPOSAL IN RIVER TRUNK LINE BASED ON INTERDEPENDENT NETWORK, 56-67.

Jinlu Sheng, Yiyang Wan, and Xiangchun Xing

References

1. [1] D. Kvoˇcka, D. ˇZagar, and P. Banovec, A review of river oilspill modeling, Water, 13(12), 2021, 1620.
2. [2] H. Xiong, L. Chen, and Z. Sun, The impacts of piers on oilspill transport in a typical reach of the middle Yangtze River,Water Supply, 21(6),2021, 3114–3125.
3. [3] Y.Q. Wen, R.X. Song, F. Zhang, C. Zhou, W. Yi, and Z. Sui,Site selection model and algorithm for oil spill emergency rescuepoint on the Yangtze River trunk line, Proc. 5th InternationalConf. on Transportation Information and Safety, Liverpool,2019, 759–764.
4. [4] J. Liu, L. Guo, J.P. Jiang, D. Jiang, and P. Wang, Emergencymaterial allocation with time-varying supply-demand basedon dynamic optimization method for river chemical spills,Environmental Science and Pollution Research, 25(18), 2018,17343–17353.
5. [5] J. Liu, D.X. Jiang, L. Guo, J. Nan, W. Cao, and P.Wang, Emergency material location-allocation planning usinga risk-based integration methodology for river chemical spills,Environmental Science and Pollution Research, 27(15), 2020,17949–17962.
6. [6] A. Cardillo, M. Zanin, J. Gomez-Gardenes, M. Romance, A.J.Garc´ıa del Amo, and S. Boccaletti, Modeling the multi-layernature of the European Air Transport Network: Resilienceand passengers re-scheduling under random failures, EuropeanPhysical Journal-Special Topics, 215(1), 2013, 23–33.
7. [7] M. Ouyang, Review on modeling and simulation of interdepen-dent critical infrastructure systems, Reliability Engineering &System Safety, 121, 2014, 43–60.
8. [8] S.M. Rinaldi, J.P. Peerenboom, and T.K. Kelly, Identifying,understanding, and analyzing critical infrastructure interde-pendencies, IEEE Control Systems Magazine, 21(6), 2001,11–25.
9. [9] J.X. Gao, S.V. Buldyrev, H.E. Stanley, and S. Havlin, Networksformed from interdependent networks, Nature Physics, 8(1),2012, 40–48.
10. [10] C.D. Brummitt, R.M. D’Souza, and E.A. Leicht, Suppressingcascades of load in interdependent networks, Proceedings of theNational Academy of Sciences of the United States of America,109(12), 2012, E680-E689.
11. [11] G.J. Baxter, S.N. Dorogovtsev, A.V. Goltsev, and J.F.F.Mendes, Avalanche collapse of interdependent networks,Physical Review Letters, 109(24), 2012, 248701.
12. [12] Z.H. Chen, J.J. Wu, Y.X. Xia, and X. Zhang, Robustness ofinterdependent power grids and communication networks: acomplex network perspective, IEEE Transactions on Circuitsand Systems II: Express Briefs, 65(1), 2018, 115–119.
13. [13] E. Pournaras, M. Ballandies, D. Acharya, D. Acharya, M.Thapa, and B.-E. Brandt, Prototyping self-managed inter-dependent networks—Self-healing synergies against cascadingfailures, Proc. IEEE/ACM 13th International Symposium onSoftware Engineering for Adaptive and Self-Managing Systems,Gothenburg, 2018, 119–129.
14. [14] X.P. Ji, B. Wang, D.C. Liu, and T. Zhao, Review oninterdependent networks theory and its applications in thestructural vulnerability analysis of electrical cyber-physicalsystem, Proceeding CSEE, 36(17), 2016, 4521–4533.66
15. [15] P. Zhang, B. Cheng, Z. Zhao, D. Li, G. Lu, Y. Wang,and J. Xiao, The robustness of interdependent transportationnetworks under targeted attack, Europhysics Letters, 103(6),2013, 68005.
16. [16] Q. Luo, J. Song, T. Zheng, T. Zheng, and L. Yang, Passengerevacuation at a malfunctioning urban rail station based oninterdependent networks, International Journal of ModernPhysics C, 30(11), 2019, 1950098.
17. [17] H. Wei-Tao, Y.Peng, M. Hai-Long, Z. Peng, and T. Le,Robustness of interdependent networks with heterogeneousweak inter-layer links, Acta Physica Sinica, 68(18), 2019,222–229.
18. [18] X. Wang, W. Pan, and W. Zhao, Analysis of networkcharacteristics and robustness of aeronautical interdependentnetwork in North China, Science Technology and Engineering,18(13), 2018, 180–185.
19. [19] Z. He, K. Navneet, W. Van Dam, and P. Van Mieghem,Robustness assessment of multimodal freight transportnetworks, Reliability Engineering & System Safety, 207, 2021,107315.
20. [20] M. Zhao, X. Wang, W. Pan, and X. Zhang, The vulnerabilityanalysis of the multi-layer air transport system, Proc. 5thInternational Conf. on Transportation Information and Safety,Liverpool, 2019, 956–962.
21. [21] M. De Domenico, M.A. Porter, and A. Arenas, MuxViz: A toolfor multilayer analysis and visualization of networks, Journalof Complex Networks, 3(2), 2015, 159–176.
22. [22] P. Jiang, S. Tong, Y. Wang, and G. Xu, Modelling the oil spilltransport in inland waterways based on experimental study,Environmental Pollution, 284, 2021, 117473.
23. [23] Technical guidelines on environmental risk assessment of oilspills at waters, Standard JT/T 1143–2017, 2017.
24. [24] M. Cai, H.-F. Du, and M.W. Feldman, A new network structureentropy based on maximum flow, Acta Physica Sinica, 63(6),2014, 60504.

Important Links:

• Abstract
• DOI: 10.2316/J.2024.206-0858
• From Journal (206) International Journal of Robotics and Automation - 2024

Go Back