We consider an uncertain variant of the knapsack problem in which the weight of the items is not exactly known in advance, but belongs to a given interval, and an upper bound is imposed on the number of items whose weight differs from the expected one. For this problem, we provide a dynamic programming algorithm and present techniques aimed at reducing its space and time complexities. Finally, we computationally compare the performances of the proposed algorithm with those of different exact algorithms presented so far in the literature for robust optimization problems
International audienceThis paper solves the binary single-constrained Knapsack Problem (KP) and unde...
The goal of classical KP, is to find a subset of items whose total weight does not exceed the knapsa...
International audienceIn the binary single constraint Knapsack Problem, denoted KP, we are given a k...
We consider an uncertain variant of the knapsack problem in which the weight of the items is not exa...
We consider an uncertain variant of the knapsack problem in which the weight of the items is not exa...
AbstractWe consider an uncertain variant of the knapsack problem in which the weight of the items is...
This paper studies the robust knapsack problem, for which solutions are, up to a certain point, immu...
We consider an uncertain variant of the knapsack problem that arises when the exact weight of each i...
Abstract This paper studies the robust knapsack problem, for which solutions are, up to a certain po...
We consider the knapsack problem in which the objective function is uncertain, and given by a finite...
Abstract In this paper, we consider the multi-band robust knapsack problem which generalizes the Γ-r...
This paper introduces a new optimization problem, namely the Polynomial Robust Knapsack Problem. It ...
We consider robust knapsack problems where item weights are uncertain. We are allowed to query an it...
The knapsack problem is a classical combinatorial optimization problem used to model many industrial...
In this paper, we study the sensitivity of the optimum of the knapsack problem to the perturbation o...
International audienceThis paper solves the binary single-constrained Knapsack Problem (KP) and unde...
The goal of classical KP, is to find a subset of items whose total weight does not exceed the knapsa...
International audienceIn the binary single constraint Knapsack Problem, denoted KP, we are given a k...
We consider an uncertain variant of the knapsack problem in which the weight of the items is not exa...
We consider an uncertain variant of the knapsack problem in which the weight of the items is not exa...
AbstractWe consider an uncertain variant of the knapsack problem in which the weight of the items is...
This paper studies the robust knapsack problem, for which solutions are, up to a certain point, immu...
We consider an uncertain variant of the knapsack problem that arises when the exact weight of each i...
Abstract This paper studies the robust knapsack problem, for which solutions are, up to a certain po...
We consider the knapsack problem in which the objective function is uncertain, and given by a finite...
Abstract In this paper, we consider the multi-band robust knapsack problem which generalizes the Γ-r...
This paper introduces a new optimization problem, namely the Polynomial Robust Knapsack Problem. It ...
We consider robust knapsack problems where item weights are uncertain. We are allowed to query an it...
The knapsack problem is a classical combinatorial optimization problem used to model many industrial...
In this paper, we study the sensitivity of the optimum of the knapsack problem to the perturbation o...
International audienceThis paper solves the binary single-constrained Knapsack Problem (KP) and unde...
The goal of classical KP, is to find a subset of items whose total weight does not exceed the knapsa...
International audienceIn the binary single constraint Knapsack Problem, denoted KP, we are given a k...