This paper considers the problem of scheduling a set of jobs on a single machine subject to stochastic breakdowns with incomplete information on the probability distributions involved in the decision process. We focus on the preemptiverepeat discipline, under which a machine breakdown leads to the loss of the work done on the job being processed. The breakdown process of the machine is allowed to depend on the job it is processing. The processing times required to complete the jobs, and the machine uptimes and downtimes, are random variables with incomplete information on their probability distributions characterized by unknown parameters. We establish the preemptive-repeat model with incomplete information and investigate its probabilistic...
We introduce a model for non-preemptive scheduling under uncertainty. In this model, we combine the ...
In this work, we study a stochastic single machine scheduling problem in which the features of learn...
This paper addresses the non-preemptive single machine scheduling problem to minimize total tardines...
We consider the problem of finding a dynamically optimal policy to process n jobs on a single machin...
We study a stochastic scheduling problem with a single machine subject to random breakdowns. We addr...
This paper studies the problem of scheduling a set of jobs on a single machine subject to stochastic...
The problem of scheduling jobs on unreliable machines has received little attention in the literatur...
In most scheduling problems discussed in the literature it is assumed that the machine (i.e. key res...
We consider dynamic stochastic scheduling of preemptive jobs with processing times that follow indep...
We study a stochastic scheduling problem of processing a set of jobs on a single machine+ Each job h...
We present first constant performance guarantees for preemptive stochastic scheduling to minimize th...
This chapter surveys the literature on scheduling problems with random attributes, including process...
A set of jobs is to be processed on a machine which is subject to break-down and repair. When the pr...
We present first constant performance guarantees for preemptive stochastic scheduling to minimize th...
We consider a scheduling problem in which two classes of independent jobs have to be processed non-p...
We introduce a model for non-preemptive scheduling under uncertainty. In this model, we combine the ...
In this work, we study a stochastic single machine scheduling problem in which the features of learn...
This paper addresses the non-preemptive single machine scheduling problem to minimize total tardines...
We consider the problem of finding a dynamically optimal policy to process n jobs on a single machin...
We study a stochastic scheduling problem with a single machine subject to random breakdowns. We addr...
This paper studies the problem of scheduling a set of jobs on a single machine subject to stochastic...
The problem of scheduling jobs on unreliable machines has received little attention in the literatur...
In most scheduling problems discussed in the literature it is assumed that the machine (i.e. key res...
We consider dynamic stochastic scheduling of preemptive jobs with processing times that follow indep...
We study a stochastic scheduling problem of processing a set of jobs on a single machine+ Each job h...
We present first constant performance guarantees for preemptive stochastic scheduling to minimize th...
This chapter surveys the literature on scheduling problems with random attributes, including process...
A set of jobs is to be processed on a machine which is subject to break-down and repair. When the pr...
We present first constant performance guarantees for preemptive stochastic scheduling to minimize th...
We consider a scheduling problem in which two classes of independent jobs have to be processed non-p...
We introduce a model for non-preemptive scheduling under uncertainty. In this model, we combine the ...
In this work, we study a stochastic single machine scheduling problem in which the features of learn...
This paper addresses the non-preemptive single machine scheduling problem to minimize total tardines...