Add to ORKGThe p-median problem is a classic discrete location problem with several applications. It aims to open p sites while minimizing the sum of the distances of each client to its nearest open site. We study a Benders decomposition of the most efficient formulation in the literature. We prove that the Benders cuts can be separated by a polynomial time algorithm. The Benders decomposition also leads to a new compact formulation for the p-median problem. We implement a branch-and-Benders-cut approach that outperforms state-of-the-art methods on benchmark instances by an order of magnitude
Flexible discrete location problems are a generalization of most classical discrete locations proble...
We study the p-median problem which is one of the classical problems in location theory. For p = 2 a...
A drop algorithm is proposed for solving the p median problem. In solving for a fixed value of p , t...
In this paper, we use a branch decomposition technique to improve approximations to the p-median pro...
This paper describes a branch-and-price algorithm for the p-median location problem. The objective i...
The fundamental objectives of locating facilities can be summarized into three categories. The first...
The fundamental objectives of locating facilities can be summarized into three categories. The first...
Given a directed graph G(V,A), the p-Median problem consists of determining p nodes (the median node...
The p-median problem (PMP) is the well known network optimization problem of discrete location theor...
The p-median problem seeks for the location of p facilities on the vertices (customers) of a graph t...
The P-median problem is a classical location model “par excellence”. In this paper we, first examine...
In solving location models, the effort expended and the quality of the solutions obtained often vari...
This chapter reviews the p-median problem in continuous space with an emphasis on some recent heuris...
AbstractFlexible discrete location problems are a generalization of most classical discrete location...
The problem of locating hub facilities arises in the design of transportation and telecommunications...
Flexible discrete location problems are a generalization of most classical discrete locations proble...
We study the p-median problem which is one of the classical problems in location theory. For p = 2 a...
A drop algorithm is proposed for solving the p median problem. In solving for a fixed value of p , t...
In this paper, we use a branch decomposition technique to improve approximations to the p-median pro...
This paper describes a branch-and-price algorithm for the p-median location problem. The objective i...
The fundamental objectives of locating facilities can be summarized into three categories. The first...
The fundamental objectives of locating facilities can be summarized into three categories. The first...
Given a directed graph G(V,A), the p-Median problem consists of determining p nodes (the median node...
The p-median problem (PMP) is the well known network optimization problem of discrete location theor...
The p-median problem seeks for the location of p facilities on the vertices (customers) of a graph t...
The P-median problem is a classical location model “par excellence”. In this paper we, first examine...
In solving location models, the effort expended and the quality of the solutions obtained often vari...
This chapter reviews the p-median problem in continuous space with an emphasis on some recent heuris...
AbstractFlexible discrete location problems are a generalization of most classical discrete location...
The problem of locating hub facilities arises in the design of transportation and telecommunications...
Flexible discrete location problems are a generalization of most classical discrete locations proble...
We study the p-median problem which is one of the classical problems in location theory. For p = 2 a...
A drop algorithm is proposed for solving the p median problem. In solving for a fixed value of p , t...