AbstractThe machine covering problem deals with partitioning a sequence of jobs among a set of machines, so as to maximize the completion time of the least loaded machine. We study a semi-online variant, where jobs arrive one by one, sorted by non-increasing size. The jobs are to be processed by two uniformly related machines, with a speed ratio of q≥1. Each job has to be processed continuously, in a time slot assigned to it on one of the machines. This assignment needs to be performed upon the arrival of the job. The length of the time slot, which is required for a specific job to run on a given machine, is equal to the size of the job divided by the speed of the machine. We give a complete competitive analysis of this problem by providing...
Makespan minimization onm identical machines is a fundamental scheduling problem. The goal is to ass...
AbstractWe consider preemptive offline and online scheduling on identical machines and uniformly rel...
This paper investigates machine covering problem on m> 3 parallel in-dentical machines with nonsi...
AbstractThe machine covering problem deals with partitioning a sequence of jobs among a set of machi...
AbstractThis paper investigates the semi-online machine covering problems on m≥3 parallel identical ...
AbstractThis paper considers two semi-online scheduling problems, one with known optimal value and t...
Author name used in this publication: C. T. NgAuthor name used in this publication: T. C. E. Cheng20...
We consider a semi-online version of the problem of scheduling a sequence of jobs of different lengt...
AbstractIn this paper, we consider the semi-online preemptive scheduling problem with decreasing job...
Author name used in this publication: T.C.E. ChengAuthor name used in this publication: C. T. Ng2005...
AbstractIn this paper we consider the problem of semi-online scheduling on two uniform processors, i...
AbstractIn this paper we consider several semi-online scheduling problems on two identical machines ...
AbstractIn this paper we consider the semi-online scheduling problem with known partial information ...
In the machine cover problem we are given m machines and n jobs to be assigned (scheduled) so that t...
AbstractMakespan minimization on m identical machines is a fundamental scheduling problem. The goal ...
Makespan minimization onm identical machines is a fundamental scheduling problem. The goal is to ass...
AbstractWe consider preemptive offline and online scheduling on identical machines and uniformly rel...
This paper investigates machine covering problem on m> 3 parallel in-dentical machines with nonsi...
AbstractThe machine covering problem deals with partitioning a sequence of jobs among a set of machi...
AbstractThis paper investigates the semi-online machine covering problems on m≥3 parallel identical ...
AbstractThis paper considers two semi-online scheduling problems, one with known optimal value and t...
Author name used in this publication: C. T. NgAuthor name used in this publication: T. C. E. Cheng20...
We consider a semi-online version of the problem of scheduling a sequence of jobs of different lengt...
AbstractIn this paper, we consider the semi-online preemptive scheduling problem with decreasing job...
Author name used in this publication: T.C.E. ChengAuthor name used in this publication: C. T. Ng2005...
AbstractIn this paper we consider the problem of semi-online scheduling on two uniform processors, i...
AbstractIn this paper we consider several semi-online scheduling problems on two identical machines ...
AbstractIn this paper we consider the semi-online scheduling problem with known partial information ...
In the machine cover problem we are given m machines and n jobs to be assigned (scheduled) so that t...
AbstractMakespan minimization on m identical machines is a fundamental scheduling problem. The goal ...
Makespan minimization onm identical machines is a fundamental scheduling problem. The goal is to ass...
AbstractWe consider preemptive offline and online scheduling on identical machines and uniformly rel...
This paper investigates machine covering problem on m> 3 parallel in-dentical machines with nonsi...