2022
DOI: 10.1007/s10957-022-02091-2
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On Recognizing Staircase Compatibility

Abstract: For the problem to find an m-clique in an m-partite graph, staircase compatibility has recently been introduced as a polynomial-time solvable special case. It is a property of a graph together with an m-partition of the vertex set and total orders on each subset of the partition. In optimization problems involving m-cliques in m-partite graphs as a subproblem, it allows for totally unimodular linear programming formulations, which have shown to efficiently solve problems from different applications. In this wo… Show more

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Cited by 2 publications
(3 citation statements)
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“…We start by describing the feasible set of possible timetable adaptations. To model this set, we use a graph-based formulation as a clique problem with multiple-choice constraints (CPMC), as introduced in [1,13] and further investigated in [2,4,5,7]. CPMC consists in finding a clique of size m ∈ N in an m-partite graph G = (V, E).…”
Section: B1 Graph Model For Feasible Timetable Adaptationsmentioning
confidence: 99%
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“…We start by describing the feasible set of possible timetable adaptations. To model this set, we use a graph-based formulation as a clique problem with multiple-choice constraints (CPMC), as introduced in [1,13] and further investigated in [2,4,5,7]. CPMC consists in finding a clique of size m ∈ N in an m-partite graph G = (V, E).…”
Section: B1 Graph Model For Feasible Timetable Adaptationsmentioning
confidence: 99%
“…Overall, the presented timetabling models (B2) and (B3) amount to optimizing a convex piecewise linear objective function over the CPMC-polytope. Efficient methods to solve the underlying two NP-hard problems have been proposed in [1,2,4,7], respectively.…”
Section: Data Availability Statementmentioning
confidence: 99%
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