In cutting and packing problems, Dual Feasible Functions (DFFs) represent a well established tool for deriving high quality lower bounds in very short times. A well-known DFF lower bounding approach consists of using DFFs to rapidly generate feasible values for the dual variables of a Column Generation (CG) program (i.e., of an extended formulation commonly associated to CG). This paper presents a method for extending this approach to problems such as Capacitated p-Median, Distance Constrained General Routing and related variants (e.g., Capacitated Arc-Routing). In contrast to classical DFF bounds for cutting and packing, our extended DFF bounds deal with non-equal column costs, i.e., the column costs (primal objective function coefficients...
Column generation is a well-known mathematical programming technique based on two compo-nents: a mas...
The Node, Edge, and Arc Routing Problem (NEARP) was defined by Prins and Bouchenoua in 2004, althoug...
In this paper, we explore a set of new heuristic strategies integrated within the column generation ...
[Extrato] The concept of dual-feasible function (DFF) has been used to improve the resolution of sev...
This paper considers packing and cutting problems in which a packing/cutting pattern is constrained ...
In this paper, we address the 2-dimensional vector packing problem where an optimal layout for a se...
International audienceThis paper presents new lower bounding procedures and an exact method for the ...
The Capacitated Location-Routing Problem consists in, given a set of locations and a set of customer...
Routing and logistics applications are often viewed as intractable for exact optimization tools. Al-...
This paper introduces a branch-and-cut algorithm for the elementary shortest path problem with a cap...
This paper presents new lower bounding procedures and an exact method for the m-peripatetic vehicle ...
International audienceThe bin packing problem with conflicts (BPC) consists of minimizing the number...
AbstractIn this paper, we introduce two algorithms to address the two-echelon capacitated location-r...
Abstract. The best exact algorithms for the Capacitated Vehicle Routing Problem (CVRP) have been bas...
In this paper we present a general framework for tackling combined location and routing problems (LR...
Column generation is a well-known mathematical programming technique based on two compo-nents: a mas...
The Node, Edge, and Arc Routing Problem (NEARP) was defined by Prins and Bouchenoua in 2004, althoug...
In this paper, we explore a set of new heuristic strategies integrated within the column generation ...
[Extrato] The concept of dual-feasible function (DFF) has been used to improve the resolution of sev...
This paper considers packing and cutting problems in which a packing/cutting pattern is constrained ...
In this paper, we address the 2-dimensional vector packing problem where an optimal layout for a se...
International audienceThis paper presents new lower bounding procedures and an exact method for the ...
The Capacitated Location-Routing Problem consists in, given a set of locations and a set of customer...
Routing and logistics applications are often viewed as intractable for exact optimization tools. Al-...
This paper introduces a branch-and-cut algorithm for the elementary shortest path problem with a cap...
This paper presents new lower bounding procedures and an exact method for the m-peripatetic vehicle ...
International audienceThe bin packing problem with conflicts (BPC) consists of minimizing the number...
AbstractIn this paper, we introduce two algorithms to address the two-echelon capacitated location-r...
Abstract. The best exact algorithms for the Capacitated Vehicle Routing Problem (CVRP) have been bas...
In this paper we present a general framework for tackling combined location and routing problems (LR...
Column generation is a well-known mathematical programming technique based on two compo-nents: a mas...
The Node, Edge, and Arc Routing Problem (NEARP) was defined by Prins and Bouchenoua in 2004, althoug...
In this paper, we explore a set of new heuristic strategies integrated within the column generation ...