In this work, we propose a procedure to compute Pareto-optimal fronts for the bi-objective Minimum Diameter-Cost Spanning Tree problem (bi-MDCST). The bi-MDCST aims at finding spanning trees with minimum total cost and minimum diameter. Strategic decision problems for high-speed trains infrastructure, as well as tactical and operational optimization problems for network design and transportation can be modeled as bi-MDCST. The proposed exact procedure makes use of components from the multi-objective exact method Parallel Partitioning Method, and Pareto-optimal fronts have been computed for two benchmark instances from the literature. To the best of our knowledge, there ar...
This paper presents a new procedure for computing the set of supported non dominated solutions of bi...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...
In this work, we propose a procedure to compute Pareto-optimal fronts for the bi-objective...
International audienceIn this work, we propose a procedure to compute Pareto-optimal fronts for the ...
International audienceThe bi-objective minimum diameter-cost spanning tree problem (bi-MDCST) seeks ...
Abstract. In this paper we consider bi-criteria geometric optimization problems, in particular, the ...
In this paper, we have done a rapid and very simple algorithm that resolves the multiple objective c...
This paper focuses on a multi-objective derivation of branch-and-bound procedures. Such a procedure ...
We study several bicriteria network design problems phrased as follows: given an indirected graph an...
International audienceIn this work, we give a formal framework to design multiobjective branch-and-b...
For a given cost matrix and a given communication requirement matrix, the OCSTP is defined as findin...
A minimum spanning tree (MST) with a small diameter is required in numerous practical situations. It...
We investigate two versions of multiple objective minimum spanning tree problems defined on a netwo...
International audienceThis paper presents an exact method for the bi-objective Vehicle Routing Probl...
This paper presents a new procedure for computing the set of supported non dominated solutions of bi...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...
In this work, we propose a procedure to compute Pareto-optimal fronts for the bi-objective...
International audienceIn this work, we propose a procedure to compute Pareto-optimal fronts for the ...
International audienceThe bi-objective minimum diameter-cost spanning tree problem (bi-MDCST) seeks ...
Abstract. In this paper we consider bi-criteria geometric optimization problems, in particular, the ...
In this paper, we have done a rapid and very simple algorithm that resolves the multiple objective c...
This paper focuses on a multi-objective derivation of branch-and-bound procedures. Such a procedure ...
We study several bicriteria network design problems phrased as follows: given an indirected graph an...
International audienceIn this work, we give a formal framework to design multiobjective branch-and-b...
For a given cost matrix and a given communication requirement matrix, the OCSTP is defined as findin...
A minimum spanning tree (MST) with a small diameter is required in numerous practical situations. It...
We investigate two versions of multiple objective minimum spanning tree problems defined on a netwo...
International audienceThis paper presents an exact method for the bi-objective Vehicle Routing Probl...
This paper presents a new procedure for computing the set of supported non dominated solutions of bi...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...