Bärmann A, Gemander P, Merkert M, Wiertz AK, Zaragoza Martínez FJ (2023)
Publication Type: Journal article
Publication year: 2023
Book Volume: 324
Pages Range: 145-166
DOI: 10.1016/j.dam.2022.09.015
The clique problem with multiple-choice constraints (CPMC), i.e. the problem of finding a k-clique in a k-partite graph with known partition, occurs as a substructure in many real-world applications, in particular scheduling and railway timetabling. Although CPMC is NP-complete in general, it is known to be solvable in polynomial time when the so-called dependency graph of G is a forest. In this article, we focus on the special case CPMCSP, where the dependency graph of G is series–parallel. We give a polynomial-time algorithm for CPMCSP using dynamic programming. Further, we provide some facet-inducing inequalities of the CPMCSP polytope, mainly using properties of the stable set polytope of the complement graph of G. Among these, we give a separation algorithm for the so-called embedded odd-clique-cycle inequalities using dynamic programming. If the number of vertices per subset of the k-partition is bounded, then its runtime is polynomial in the size of the dependency graph.
APA:
Bärmann, A., Gemander, P., Merkert, M., Wiertz, A.-K., & Zaragoza Martínez, F.J. (2023). Algorithms for the clique problem with multiple-choice constraints under a series–parallel dependency graph. Discrete Applied Mathematics, 324, 145-166. https://doi.org/10.1016/j.dam.2022.09.015
MLA:
Bärmann, Andreas, et al. "Algorithms for the clique problem with multiple-choice constraints under a series–parallel dependency graph." Discrete Applied Mathematics 324 (2023): 145-166.
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