We investigate an online version of a basic scheduling problem where a set of jobs has to be scheduled on a number of identical machines so as to minimize the makespan. The job processing times are known in advance and preemption of jobs is allowed. Machines are non-continuously available, i.e., they can break down and recover at arbitrary time instances not known in advance. New machines may be added as well. Thus machine availabilities change online. We rst show that no online algorithm can construct optimal schedules. We also show that no online algorithm can achieve a bounded competitive ratio if there may be time intervals where no machine is available. Then we present an online algorithm that constructs schedules with an optimal makes...
We consider the following online scheduling problem in which the input consists of n jobs to be sche...
In this paper we consider the online scheduling of jobs, which require processing on a number of mac...
AbstractThis paper addresses the analysis of nondelay, nonpreemptive, nonclairvoyant online schedule...
AbstractWe investigate an online version of a basic scheduling problem where a set of jobs has to be...
We investigate an online version of the scheduling problem $P, NC|pmtn|C_{\max}$, where a set of job...
AbstractIn this paper we investigate two online scheduling problems. The first one is online schedul...
AbstractWe consider online scheduling problems to minimize modified total tardiness. The problems ar...
Makespan minimization onm identical machines is a fundamental scheduling problem. The goal is to ass...
We consider an online scheduling environment where decisions are made without knowledge of the data ...
AbstractIn many realistic scenarios of job processing, one job consumes a longer time to be satisfie...
International audienceWe consider in this work a classical online scheduling problem with release ti...
We consider the online resource minimization problem in which jobs with hard deadlines arrive online...
AbstractThis paper considers the online scheduling problem with machine cost. We are given a sequenc...
We consider online preemptive scheduling of jobs with fixed starting times revealed at those times o...
© 2017 Wiley Periodicals, Inc. In this paper, we propose a general framework for online scheduling p...
We consider the following online scheduling problem in which the input consists of n jobs to be sche...
In this paper we consider the online scheduling of jobs, which require processing on a number of mac...
AbstractThis paper addresses the analysis of nondelay, nonpreemptive, nonclairvoyant online schedule...
AbstractWe investigate an online version of a basic scheduling problem where a set of jobs has to be...
We investigate an online version of the scheduling problem $P, NC|pmtn|C_{\max}$, where a set of job...
AbstractIn this paper we investigate two online scheduling problems. The first one is online schedul...
AbstractWe consider online scheduling problems to minimize modified total tardiness. The problems ar...
Makespan minimization onm identical machines is a fundamental scheduling problem. The goal is to ass...
We consider an online scheduling environment where decisions are made without knowledge of the data ...
AbstractIn many realistic scenarios of job processing, one job consumes a longer time to be satisfie...
International audienceWe consider in this work a classical online scheduling problem with release ti...
We consider the online resource minimization problem in which jobs with hard deadlines arrive online...
AbstractThis paper considers the online scheduling problem with machine cost. We are given a sequenc...
We consider online preemptive scheduling of jobs with fixed starting times revealed at those times o...
© 2017 Wiley Periodicals, Inc. In this paper, we propose a general framework for online scheduling p...
We consider the following online scheduling problem in which the input consists of n jobs to be sche...
In this paper we consider the online scheduling of jobs, which require processing on a number of mac...
AbstractThis paper addresses the analysis of nondelay, nonpreemptive, nonclairvoyant online schedule...