This paper is devoted to two types of stochastic scheduling problems, one involving a single machine and the other involving a flow shop consisting of an arbitrary number of machines. In both problem types, all jobs to be processed have due dates, and the objective is to find a job sequence that minimizes the expected weighted number of tardy jobs. For the single-machine case, sufficient optimality conditions for job sequences are derived for various choices of due date and processing time distributions. For the case of a flow shop with an arbitrary number of machines and identically distributed due dates for all jobs, we prove the following intuitively appealing results: (i) when all jobs have the same processing time distributions, the ex...
We consider a single-machine scheduling problem with each job having an uncertain processing time wh...
We consider an uncertain version of the scheduling problem to sequence set of jobs J on a single m...
We study the special case of the m machine flow shop problem in which the processing time of each op...
This paper is devoted to two types of stochastic scheduling problems, one involving a single machine...
This paper deals with a flow-shop scheduling problem in which weights of jobs and break-down times o...
Traditional job shop scheduling models ignore the stochastic elements that exist in actual job shops...
This paper presents a procedure for sequencing jobs on a single machine with jobs having a common du...
We consider an uncertain version of the scheduling problem to sequence set of jobs J on a single m...
N jobs simultaneously arrive at a machine where they are to be processed. It is assumed that the pro...
We study a stochastic scheduling problem of processing a set of jobs on a single machine+ Each job h...
We consider stochastic models for flow shops, job shops and open shops in which the work required by...
This paper deals with scheduling problems in m machines permutation flow shop subject to random brea...
We study a single-machine stochastic scheduling problem with n jobs in which each job has a random p...
A number of jobs are to be processed using a number of identical machines which operate in parallel....
Abstract. In this paper, stochastic shop models with m machines and n jobs are considered. A job has...
We consider a single-machine scheduling problem with each job having an uncertain processing time wh...
We consider an uncertain version of the scheduling problem to sequence set of jobs J on a single m...
We study the special case of the m machine flow shop problem in which the processing time of each op...
This paper is devoted to two types of stochastic scheduling problems, one involving a single machine...
This paper deals with a flow-shop scheduling problem in which weights of jobs and break-down times o...
Traditional job shop scheduling models ignore the stochastic elements that exist in actual job shops...
This paper presents a procedure for sequencing jobs on a single machine with jobs having a common du...
We consider an uncertain version of the scheduling problem to sequence set of jobs J on a single m...
N jobs simultaneously arrive at a machine where they are to be processed. It is assumed that the pro...
We study a stochastic scheduling problem of processing a set of jobs on a single machine+ Each job h...
We consider stochastic models for flow shops, job shops and open shops in which the work required by...
This paper deals with scheduling problems in m machines permutation flow shop subject to random brea...
We study a single-machine stochastic scheduling problem with n jobs in which each job has a random p...
A number of jobs are to be processed using a number of identical machines which operate in parallel....
Abstract. In this paper, stochastic shop models with m machines and n jobs are considered. A job has...
We consider a single-machine scheduling problem with each job having an uncertain processing time wh...
We consider an uncertain version of the scheduling problem to sequence set of jobs J on a single m...
We study the special case of the m machine flow shop problem in which the processing time of each op...