Computational methods for finding long simple cycles in complex networks
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摘要
Detection of long simple cycles in real-world complex networks finds many applications in layout algorithms, information flow modelling, as well as in bioinformatics. In this paper, we propose two computational methods for finding long cycles in real-world networks. The first method is an exact approach based on our own integer linear programming formulation of the problem and a data mining pipeline. This pipeline ensures that the problem is solved as a sequence of integer linear programs. The second method is a multi-start local search heuristic, which combines an initial construction of a long cycle using depth-first search with four different perturbation operators. Our experimental results are presented for social network samples, graphs studied in the network science field, graphs from DIMACS series, and protein-protein interaction networks. These results show that our formulation leads to a significantly more efficient exact approach to solve the problem than a previous formulation. For 14 out of 22 networks, we have found the optimal solutions. The potential of heuristics in this problem is also demonstrated, especially in the context of large-scale problem instances.
论文关键词:Long simple cycles,Long cycles,Complex networks,Integer linear programming,Graph algorithms,Local search,Hamiltonian cycles
论文评审过程:Received 5 August 2016, Revised 24 March 2017, Accepted 29 March 2017, Available online 30 March 2017, Version of Record 21 April 2017.
论文官网地址:https://doi.org/10.1016/j.knosys.2017.03.022