We consider a hybrid two-stage optimization problem that generalizes two classic combinatorial optimization problems: (i) weighted vertex cover in graphs, and (ii) makespan minimization in multiprocessor scheduling. An instance specifies a machine environment, a set of jobs, and an undirected graph over the jobs. The goal is to select a subset of the jobs that forms a vertex cover and to schedule it on a set of parallel machines so as to minimize the makespan. We call this problem family vertex cover meets multiprocessor scheduling (VCMS). The problem is motivated by networks where vertices represent servers and each edge corresponds to a task that can be done by any of the two servers of its endpoint. Each selected server can complete any ...
en cours de publicationInternational audienceThis paper introduces a coupled-task scheduling problem...
In this paper, an extension of the graph coloring problem is introduced to model a parallel machine ...
Hybrid methods are very popular for solving problems from combinatorial optimization. In contrast, t...
We consider a hybrid two-stage optimization problem that generalizes two classic combinatorial optim...
AbstractThis paper studies a combination of parallel machine scheduling and the vertex cover problem...
Abstract: This paper studies a combination problem of parallel machine scheduling and the covering p...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Sloan School of Management, Operations Resea...
We consider the single machine scheduling problem to minimize the weighted sum of completion times u...
We study the offline and online versions of the well known problem of scheduling a set of n independ...
Parallel machine scheduling problems concern the scheduling of n jobs on m machines to minimize some...
Abstract. We consider the problem of assigning a set of jobs to m par-allel related machines so as t...
We study the offline and online versions of the well known problem of scheduling a set of n indepen-...
We consider the following scheduling problem. There are m parallel machines and n ipdependent jobs. ...
AbstractIn this paper we consider the following time constrained scheduling problem. Given a set of ...
Hybrid methods are very popular for solving problems from combinatorial optimization. In contrast, t...
en cours de publicationInternational audienceThis paper introduces a coupled-task scheduling problem...
In this paper, an extension of the graph coloring problem is introduced to model a parallel machine ...
Hybrid methods are very popular for solving problems from combinatorial optimization. In contrast, t...
We consider a hybrid two-stage optimization problem that generalizes two classic combinatorial optim...
AbstractThis paper studies a combination of parallel machine scheduling and the vertex cover problem...
Abstract: This paper studies a combination problem of parallel machine scheduling and the covering p...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Sloan School of Management, Operations Resea...
We consider the single machine scheduling problem to minimize the weighted sum of completion times u...
We study the offline and online versions of the well known problem of scheduling a set of n independ...
Parallel machine scheduling problems concern the scheduling of n jobs on m machines to minimize some...
Abstract. We consider the problem of assigning a set of jobs to m par-allel related machines so as t...
We study the offline and online versions of the well known problem of scheduling a set of n indepen-...
We consider the following scheduling problem. There are m parallel machines and n ipdependent jobs. ...
AbstractIn this paper we consider the following time constrained scheduling problem. Given a set of ...
Hybrid methods are very popular for solving problems from combinatorial optimization. In contrast, t...
en cours de publicationInternational audienceThis paper introduces a coupled-task scheduling problem...
In this paper, an extension of the graph coloring problem is introduced to model a parallel machine ...
Hybrid methods are very popular for solving problems from combinatorial optimization. In contrast, t...