In this paper, we consider parallel-machine scheduling with release times and submodular penalties (P|rj,reject|Cmax+π(R)), in which each job can be accepted and processed on one of m identical parallel machines or rejected, but a penalty must paid if a job is rejected. Each job has a release time and a processing time, and the job can not be processed before its release time. The objective of P|rj,reject|Cmax+π(R) is to minimize the makespan of the accepted jobs plus the penalty of the rejected jobs, where the penalty is determined by a submodular function. This problem generalizes a multiprocessor scheduling problem with rejection, the parallel-machine scheduling with submodular penalties, and the single machine scheduling problem with re...
Keywords: parallel machines, eligibility, release times, delivery times, Pareto front.The scheduling...
We consider the unbounded parallel batch scheduling with deterioration, release dates, and rejection...
We consider the problem of preemptively scheduling a set of n jobs on m (identical, uniformly relate...
We consider the single machine scheduling problem with release dates and job rejection with an objec...
Abstract—In this paper, we study the scheduling problem with rejection on two unrelated parallel mac...
We consider a version of multiprocessor scheduling with the special feature that jobs may be rejecte...
Abstract. We consider the bounded single-machine parallel-batch scheduling problem with release date...
Abstract We consider a version of multiprocessor scheduling with the special feature that jobs may b...
AbstractIn this paper, we consider the problem of scheduling with release dates and rejection on a s...
This is the Pre-Published Version. We consider the problem of scheduling a set of jobs with differen...
The scheduling of parallel machines is a well-known problem in many companies. Nevertheless, not alw...
AbstractWe consider several parallel-machine scheduling problems in which the processing time of a j...
We consider a problem of scheduling independent jobs on parallel machines to minimize the total comp...
The scheduling of parallel machines is a well-known problem in many companies. Nevertheless, not alw...
AbstractIn this paper, we consider the unbounded parallel batch machine scheduling with release date...
Keywords: parallel machines, eligibility, release times, delivery times, Pareto front.The scheduling...
We consider the unbounded parallel batch scheduling with deterioration, release dates, and rejection...
We consider the problem of preemptively scheduling a set of n jobs on m (identical, uniformly relate...
We consider the single machine scheduling problem with release dates and job rejection with an objec...
Abstract—In this paper, we study the scheduling problem with rejection on two unrelated parallel mac...
We consider a version of multiprocessor scheduling with the special feature that jobs may be rejecte...
Abstract. We consider the bounded single-machine parallel-batch scheduling problem with release date...
Abstract We consider a version of multiprocessor scheduling with the special feature that jobs may b...
AbstractIn this paper, we consider the problem of scheduling with release dates and rejection on a s...
This is the Pre-Published Version. We consider the problem of scheduling a set of jobs with differen...
The scheduling of parallel machines is a well-known problem in many companies. Nevertheless, not alw...
AbstractWe consider several parallel-machine scheduling problems in which the processing time of a j...
We consider a problem of scheduling independent jobs on parallel machines to minimize the total comp...
The scheduling of parallel machines is a well-known problem in many companies. Nevertheless, not alw...
AbstractIn this paper, we consider the unbounded parallel batch machine scheduling with release date...
Keywords: parallel machines, eligibility, release times, delivery times, Pareto front.The scheduling...
We consider the unbounded parallel batch scheduling with deterioration, release dates, and rejection...
We consider the problem of preemptively scheduling a set of n jobs on m (identical, uniformly relate...