AbstractWe address a generalization of the classical multiprocessor scheduling problem with non simultaneous machine availability times, release dates, and delivery times. We develop new lower and upper bounds as well as a branching strategy which is based on a representation of a schedule as a permutation of jobs. We show that embedding a semi-preemptive lower bound based on max-flow computations in a branch-and-bound algorithm yields very promising performance. Computational experiments demonstrate that randomly generated instances with up to 700 jobs and 20 machines are solved within moderate CPU time. Moreover, the versatility of the proposed approach is assessed through its ability to solve large instances of two important particular c...
AbstractIn this paper we consider the problem of scheduling n independent jobs on m identical machin...
In this paper, we consider a single machine scheduling problem with release date and inventory const...
Most studies conducted on scheduling problems are assumed that the machine is continuously available...
AbstractWe address a generalization of the classical multiprocessor scheduling problem with non simu...
We address a generalization of the classical multiprocessor scheduling problem with non simultaneous...
In manufacturing, there is a fundamental conflict between efficient production and delivery performa...
We consider the parallel-machine scheduling problem in which the machines have availability constrai...
We consider the NP-hard problem of scheduling parallel jobs with release dates on identical parallel...
International audienceWe consider the single machine scheduling problem with release dates and tails...
International audienceIn this paper, we are interested in parallel identical machine scheduling prob...
In this paper, we study the identical parallel machine scheduling problem with a planned maintenance...
AbstractWe consider a problem of scheduling n jobs on two uniform parallel machines. For each job we...
International audienceThis paper presents the first study for the total tardiness minimization on pa...
AbstractIn the past, research on multiple criteria scheduling assumes that the number of available m...
We are given a nite set of jobs of equal processing times with readiness times and tails and a set ...
AbstractIn this paper we consider the problem of scheduling n independent jobs on m identical machin...
In this paper, we consider a single machine scheduling problem with release date and inventory const...
Most studies conducted on scheduling problems are assumed that the machine is continuously available...
AbstractWe address a generalization of the classical multiprocessor scheduling problem with non simu...
We address a generalization of the classical multiprocessor scheduling problem with non simultaneous...
In manufacturing, there is a fundamental conflict between efficient production and delivery performa...
We consider the parallel-machine scheduling problem in which the machines have availability constrai...
We consider the NP-hard problem of scheduling parallel jobs with release dates on identical parallel...
International audienceWe consider the single machine scheduling problem with release dates and tails...
International audienceIn this paper, we are interested in parallel identical machine scheduling prob...
In this paper, we study the identical parallel machine scheduling problem with a planned maintenance...
AbstractWe consider a problem of scheduling n jobs on two uniform parallel machines. For each job we...
International audienceThis paper presents the first study for the total tardiness minimization on pa...
AbstractIn the past, research on multiple criteria scheduling assumes that the number of available m...
We are given a nite set of jobs of equal processing times with readiness times and tails and a set ...
AbstractIn this paper we consider the problem of scheduling n independent jobs on m identical machin...
In this paper, we consider a single machine scheduling problem with release date and inventory const...
Most studies conducted on scheduling problems are assumed that the machine is continuously available...