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Sun, 12 Sep 2010 10:21:17 +0100Sun, 12 Sep 2010 10:21:17 +0100Generalized Multiple Objective Bottleneck Problems
https://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/2252
We consider multiple objective combinatiorial optimization problems in which the first objective is of arbitrary type and the remaining objectives are either bottleneck or k-max objective functions. While the objective value of a bottleneck objective is determined by the largest cost value of any element in a feasible solution, the kth-largest element defines the objective value of the k-max objective. An efficient solution approach for the generation of the complete nondominated set is developed which is independent of the specific combinatiorial problem at hand. This implies a polynomial time algorithm for several important problem classes like shortest paths, spanning tree, and assignment problems with bottleneck objectives which are known to be NP-hard in the general multiple objective case.Jochen Gorski; Kathrin Klamroth; Stefan Ruzikapreprinthttps://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/2252Thu, 09 Dec 2010 10:21:17 +0100Connectedness of Efficient Solutions in Multiple Objective Combinatorial Optimization
https://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/1815
Connectedness of efficient solutions is a powerful property in multiple objective combinatorial optimization since it allows the construction of the complete efficient set using neighborhood search techniques. In this paper we show that, however, most of the classical multiple objective combinatorial optimization problems do not possess the connectedness property in general, including, among others, knapsack problems (and even several special cases of knapsack problems) and linear assignment problems. We also extend already known non-connectedness results for several optimization problems on graphs like shortest path, spanning tree and minimum cost flow problems. Different concepts of connectedness are discussed in a formal setting, and numerical tests are performed for different variants of the knapsack problem to analyze the likelihood with which non-connected adjacency graphs occur in randomly generated problem instances.Jochen Gorski; Kathrin Klamroth; Stefan Ruzikapreprinthttps://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/1815Tue, 28 Nov 2006 11:52:25 +0100