International audienceThis paper focuses on branching strategies that are involved in branch and bound algorithms when solving multi-objective optimization problems. The choice of the branching variable at each node of the search tree constitutes indeed an important component of these algorithms. In this work we focus on multi-objective knapsack problems. In the literature, branching heuristics used for these problems are static, i.e., the order on the variables is determined prior to the execution. This study investigates the benefit of defining more sophisticated branching strategies. We first analyze and compare a representative set of classic branching heuristics and conclude that none can be identified as the best overall heuristic. Us...
AbstractDynamic programming and branch-and-bound methodologies are combined to produce a hybrid algo...
We study the Knapsack Problem with Conflicts, a generalization of the Knapsack Problem in which a se...
This paper offers an exact algorithm for one of the most complex members of the Knapsack Problem fam...
International audienceThis paper focuses on branching strategies that are involved in branch and bou...
International audienceMulti-objective multi-dimensional knapsack problems (pOmDKP) are widely used ...
International audienceThis paper presents several methodological and algorithmic improvements over a...
This paper presents an algorithm for the solution of the knapsack problem. The method involves searc...
This paper presents several methodological and algorithmic improvements over a state-of-the-art dyna...
AbstractThe multiple-choice knapsack problem is a binary knapsack problem with the addition of disjo...
In this paper, we solve instances of the multiobjective multiconstraint (or multidimensional) knapsa...
This thesis introduces two novel search methods for automated design and discovery of heuristic bran...
International audienceThis paper solves the binary single-constrained Knapsack Problem (KP) and unde...
In this work, we are interested in solving multi-objective combinatorial optimization problems. Thes...
AbstractDynamic programming and branch-and-bound methodologies are combined to produce a hybrid algo...
We study the Knapsack Problem with Conflicts, a generalization of the Knapsack Problem in which a se...
This paper offers an exact algorithm for one of the most complex members of the Knapsack Problem fam...
International audienceThis paper focuses on branching strategies that are involved in branch and bou...
International audienceMulti-objective multi-dimensional knapsack problems (pOmDKP) are widely used ...
International audienceThis paper presents several methodological and algorithmic improvements over a...
This paper presents an algorithm for the solution of the knapsack problem. The method involves searc...
This paper presents several methodological and algorithmic improvements over a state-of-the-art dyna...
AbstractThe multiple-choice knapsack problem is a binary knapsack problem with the addition of disjo...
In this paper, we solve instances of the multiobjective multiconstraint (or multidimensional) knapsa...
This thesis introduces two novel search methods for automated design and discovery of heuristic bran...
International audienceThis paper solves the binary single-constrained Knapsack Problem (KP) and unde...
In this work, we are interested in solving multi-objective combinatorial optimization problems. Thes...
AbstractDynamic programming and branch-and-bound methodologies are combined to produce a hybrid algo...
We study the Knapsack Problem with Conflicts, a generalization of the Knapsack Problem in which a se...
This paper offers an exact algorithm for one of the most complex members of the Knapsack Problem fam...