International audienceIn the design of exact methods for NP-hard machine scheduling problems, branch and bound algorithms have always been widely considered. In this work we revisit the classic search strategies for branch and bound schemes. We consider a systematic application of the well known dynamic programming dominance property for machine scheduling problems. Several conditions concerning the application of the proposed property with respect to best first, depth first, breadth first search strategies and problem characteristics are presented. Computational testing on single machine and flow shop problems validate in practice the efficiency of the considered approach and suggest that the traditional choice of depth first search with r...
This paper present algorithms for solving a single machine scheduling problem to minimize the sum o...
We study a prize-collecting single machine scheduling problem with hard deadlines, where the objecti...
International audienceWe introduce a simple technique for disjunctive machine scheduling problems an...
International audienceIn the design of exact methods for NP-hard machine scheduling problems, branch...
Abstract The dominance test is a bounding operation in branch-and-bound algorithms, where each sub-p...
A11 the uterlil In this thesis Is devoted to ««chine scheduling prob1e«s. It Is presented In eight c...
The search for acceptable solutions in a combinatorially large problem space is an important problem...
International audienceThis article compares two branching schemes for the parallel machine schedulin...
International audienceWe present a large neighborhood search method based on limited discrepancy sea...
AbstractThis paper surveys algorithms for the problem of scheduling jobs on a single machine to mini...
Since the task scheduling problems in the multiprocessor environments belong to the class of strong ...
In this doctoral dissertation we construct and improve Branch-and- Price algorithms for parallel mac...
AbstractThis paper studies the problem of simultaneous minimization of the two criteria of maximum e...
We study a prize-collecting single-machine scheduling problem with hard deadlines, where the objecti...
We present a greedy heuristic for the n job/1 machine scheduling problem with precedence constraints...
This paper present algorithms for solving a single machine scheduling problem to minimize the sum o...
We study a prize-collecting single machine scheduling problem with hard deadlines, where the objecti...
International audienceWe introduce a simple technique for disjunctive machine scheduling problems an...
International audienceIn the design of exact methods for NP-hard machine scheduling problems, branch...
Abstract The dominance test is a bounding operation in branch-and-bound algorithms, where each sub-p...
A11 the uterlil In this thesis Is devoted to ««chine scheduling prob1e«s. It Is presented In eight c...
The search for acceptable solutions in a combinatorially large problem space is an important problem...
International audienceThis article compares two branching schemes for the parallel machine schedulin...
International audienceWe present a large neighborhood search method based on limited discrepancy sea...
AbstractThis paper surveys algorithms for the problem of scheduling jobs on a single machine to mini...
Since the task scheduling problems in the multiprocessor environments belong to the class of strong ...
In this doctoral dissertation we construct and improve Branch-and- Price algorithms for parallel mac...
AbstractThis paper studies the problem of simultaneous minimization of the two criteria of maximum e...
We study a prize-collecting single-machine scheduling problem with hard deadlines, where the objecti...
We present a greedy heuristic for the n job/1 machine scheduling problem with precedence constraints...
This paper present algorithms for solving a single machine scheduling problem to minimize the sum o...
We study a prize-collecting single machine scheduling problem with hard deadlines, where the objecti...
International audienceWe introduce a simple technique for disjunctive machine scheduling problems an...