Author
Listed:
- Lin Zhou
(School of Mathematics and Statistics, Xidian University, No. 2, South Taibai Road, Hi-Tech Development District Xi’an 710126, P. R. China†Fundamentals Department, Air Force Engineering University, No. 1, Changle East Road, Baqiao District Xi’an 710038, P. R. China)
- Xiaogang Qi
(School of Mathematics and Statistics, Xidian University, No. 2, South Taibai Road, Hi-Tech Development District Xi’an 710126, P. R. China)
- Mingfa Zheng
(��Fundamentals Department, Air Force Engineering University, No. 1, Changle East Road, Baqiao District Xi’an 710038, P. R. China)
- Fangchi Liang
(��Fundamentals Department, Air Force Engineering University, No. 1, Changle East Road, Baqiao District Xi’an 710038, P. R. China)
Abstract
Dependency links represent the relationships between network nodes that have an interactive impact on cascading failures caused by load fluctuation in the network. However, existing research mainly focuses on load fluctuation’s failure mechanisms without considering the dependency links of nodes and their cascading prevention mechanisms in reality. This study addresses the cascading prevention problem in networks when dependency links and connectivity links operate together. It proposes a hybrid cascading failure model based on the dependency relationships, load fluctuation and reinforced nodes. Furthermore, it provides four reinforced nodes’ strategies that leverage static and local information characteristics of network nodes. These strategies help the network to perform its function and prevent cascading failures effectively. The study considers actual situations where overloaded nodes can still maintain their function. To measure the overload ability and the uncertainty of node failure, the authors used the overload coefficient parameter and the failure probability. Additionally, the impact of the dependency group’s size on the network robustness is explored. Simulation results on BA and ER networks and two actual networks show that reinforced nodes’ strategies provide significant support in keeping the network away from abrupt collapses.
Suggested Citation
Lin Zhou & Xiaogang Qi & Mingfa Zheng & Fangchi Liang, 2024.
"Enhanced robustness of flow networks with dependency groups,"
International Journal of Modern Physics C (IJMPC), World Scientific Publishing Co. Pte. Ltd., vol. 35(04), pages 1-16, April.
Handle:
RePEc:wsi:ijmpcx:v:35:y:2024:i:04:n:s0129183124500396
DOI: 10.1142/S0129183124500396
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