The logical-physical dual-layer network is standardized in this paper, and three attack modes–random attack, maximum betweenness attack, and minimum betweenness attack are used to simulate and analyze the network resilience of the logical-physical dual-layer network with backup path and without backup path. The variation curves of network load loss under various attack edges are derived through simulation analysis, and it is determined that setting up backup path can significantly increase network resilience. On the basis of this conclusion, the impact of different backup path stowage schemes on network resilience is further explored, and the network load configuration scheme is designed based on duplication degree and average path length. It is determined that the network resistance is inversely related to duplication degree and average path length under the simulation study of random attack technique.