In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with sizes. A scheduling algorithm has to assign the jobs to m parallel machines. The objective is to minimize the makespan, which is the time it takes until all jobs are processed. In this paper, we consider online scheduling algorithms without preemption. However, we allow the online algorithm to reassign up to k jobs to different machines in the final assignment. For m identical machines, Albers and Hellwig (Algorithmica, 2017) give tight bounds on the competitive ratio in this model. The precise ratio depends on, and increases with, m. It lies between 4/3 and ~~ 1.4659. They show that k = O(m) is sufficient to achieve this bound and no k = o(n) ...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Makespan minimization on identical machines is a fundamental problem in online scheduling. The goal ...
Abstract. We study a classical problem in online scheduling. A sequence of jobs must be scheduled on...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
Consider the classical online scheduling problem where jobs that arrive one by one are assigned to i...
Author name used in this publication: T.C.E. ChengAuthor name used in this publication: C. T. Ng2005...
AbstractWe consider two problems of online scheduling on two uniform machines: online scheduling und...
AbstractIn this paper, we investigate the online scheduling problem on two uniform machines, where t...
In the classic minimum makespan scheduling problem, we are given an input sequence of jobs with proc...
We consider online scheduling on multiple machines for jobs arriving one-by-one with the objective o...
Makespan minimization onm identical machines is a fundamental scheduling problem. The goal is to ass...
We consider a semi-online version of the problem of scheduling a sequence of jobs of different lengt...
AbstractMakespan minimization on m identical machines is a fundamental scheduling problem. The goal ...
Makespan minimization on parallel identical machines is a classical and intensively studied problem ...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Makespan minimization on identical machines is a fundamental problem in online scheduling. The goal ...
Abstract. We study a classical problem in online scheduling. A sequence of jobs must be scheduled on...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
Consider the classical online scheduling problem where jobs that arrive one by one are assigned to i...
Author name used in this publication: T.C.E. ChengAuthor name used in this publication: C. T. Ng2005...
AbstractWe consider two problems of online scheduling on two uniform machines: online scheduling und...
AbstractIn this paper, we investigate the online scheduling problem on two uniform machines, where t...
In the classic minimum makespan scheduling problem, we are given an input sequence of jobs with proc...
We consider online scheduling on multiple machines for jobs arriving one-by-one with the objective o...
Makespan minimization onm identical machines is a fundamental scheduling problem. The goal is to ass...
We consider a semi-online version of the problem of scheduling a sequence of jobs of different lengt...
AbstractMakespan minimization on m identical machines is a fundamental scheduling problem. The goal ...
Makespan minimization on parallel identical machines is a classical and intensively studied problem ...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Makespan minimization on identical machines is a fundamental problem in online scheduling. The goal ...
Abstract. We study a classical problem in online scheduling. A sequence of jobs must be scheduled on...