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ZHANG, TENGFEI
- Structural Invulnerability Evaluation Of Complex Multi-layer Emergency Logistics System Based On Interdependent Network Theory
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Authors
Affiliations
1 Service Command Department, Army Logistics University of PLA, Chongqing 401 331,, CN
2 Oil Department, Army Logistics University of PLA, Chongqing 401 331,, CN
3 National Engineering Research Center for Disaster & Emergency Relief Equipment,, CN
4 Service Command Department, Army Logistics University of PLA, Chongqing 401 331,, CN
1 Service Command Department, Army Logistics University of PLA, Chongqing 401 331,, CN
2 Oil Department, Army Logistics University of PLA, Chongqing 401 331,, CN
3 National Engineering Research Center for Disaster & Emergency Relief Equipment,, CN
4 Service Command Department, Army Logistics University of PLA, Chongqing 401 331,, CN
Source
Journal of Mines, Metals and Fuels, Vol 66, No 1 (2018), Pagination: 31-38Abstract
Emergency logistic system is quite important for natural disaster recue and other unexpected incidents treatment. At present, most relative modelling and analyzing research on logistic network invulnerability is based on a single network, and does not take the interaction between networks into account. This paper proposes the complex multi-layer logistic model consists of command control network, space communication network and physical transportation network based on interdependent network theory. The result of network invulnerability research shows that the three-layer interdependent network model is more precisely and conform to the actual situation of emergency logistic system operation. Moreover, the invulnerability evaluation method proposed in this paper is more accurate and detailed than the traditional method. This conclusion can provide references for the designing of emergency logistics system with better invulnerability and applied to other areas research.Keywords
Invulnerability evaluation; multi-layer system; emergency logistics; interdependent network theory.References
- Barabasi, A. L. and Albert, R. (1999): “Emergence of Scaling in Random Networks.” Science, 286(5439): 509.
- Chen, C. X. and Wang, Y. K. (2012): “The Invulnerability of Emergency Logistics Network Based on Complex Network [M]//LUO J. Affective Computing and Intelligent Interaction. 2012: 789-+.
- Guo, J., Han, Y., Guo, C., Lou, F. and Wang, Y. (2017): “Modeling and Vulnerability Analysis of CyberPhysical Power Systems Considering Network Topology and Power Flow Properties.” Energies, 10(1): 1-21.
- Holme, P., Kim, B. J., Yoon, C. N. and Han, S. K. (2002): “Attack vulnerability of complex networks.” Physical Review E Statistical Nonlinear & Soft Matter Physics, 65(2): 56-109.
- Hong, J. D., Jeong, K. Y. and Xie, Y. C. (2015): “A multi-objective approach to planning in emergency logistic network design.” International Journal of Industrial Engineering – Theory Applications and Practice, 22(4): 412-425.
- Huang, L., Wang, W. and Wang, M. G. (2013): “Simulation Research of Space-Time Evolution of Emergency Logistics Network Reliability Based on Complex Network Theory.” Discrete Dynamics in Nature and Society, (3): 399-412.
- Kuhnle, A., Nguyen, N. P., Dinh, T. N. and Thai, M. T. (2017): “Vulnerability of clustering under node failure in complex networks.” Social Network Analysis & Mining, 7(1): 8.
- Li, X. H. and Tan, Q. M. (2011): “Hierarchical Traffic Network Design under Emergency Logistics [M]// Zhang, H., Shen, G., Jin, D.” Advanced Research on Information Science, Automation and Material System, Pts 1-6. 2011: 732-735.
- Wang, J. J., Jiang, C. X., Gao, L. X., Yu, S., Han, Z. and Ren, Y. (2016): IEEE Complex Network Theoretical Analysis on Information Dissemination over Vehicular Networks [M]. 2016 IEEE International Conference on Communications. 2016.
- Watts, S. H. and Strogatz, D. J. (1998): “Collective dynamics of ‘small-world’ networks.” Nature, 393(6684): 440-442.