Consider the classical online scheduling problem where jobs that arrive one by one are assigned to identical parallel machines with the objective of minimizing the makespan. We generalize this problem by allowing the current assignment to be changed whenever a new job arrives, subject to the constraint that the total size of moved jobs is bounded by~$beta$ times the size of the arriving job. Our main result is a linear time `online approximation scheme\u27, that is, a family of online algorithms with competitive ratio~$1+epsilon$ and constant migration factor~$beta(epsilon)$, for any fixed~$epsilon>0$. This result is of particular importance if considered in the context of sensitivity analysis: While a newly arriving job may force a complet...
AbstractWe study the online batch scheduling problem on parallel machines with delivery times. Onlin...
We consider the following online scheduling problem in which the input consists of n jobs to be sche...
We consider online scheduling on multiple machines for jobs arriving one-by-one with the objective o...
Consider the classical online scheduling problem where jobs that arrive one by one are assigned to i...
Online models that allow recourse are highly effective in situations where classical models are too ...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Makespan minimization on parallel identical machines is a classical and intensively studied problem ...
AbstractMakespan minimization on m identical machines is a fundamental scheduling problem. The goal ...
Abstract. We study a classical problem in online scheduling. A sequence of jobs must be scheduled on...
Scheduling a set of n jobs on m identical parallel machines so as to minimize the makespan or maximi...
Makespan minimization onm identical machines is a fundamental scheduling problem. The goal is to ass...
We explore the machine-minimizing job scheduling problem, which has a rich history in the line of re...
AbstractWe study the online batch scheduling problem on parallel machines with delivery times. Onlin...
We consider the following online scheduling problem in which the input consists of n jobs to be sche...
We consider online scheduling on multiple machines for jobs arriving one-by-one with the objective o...
Consider the classical online scheduling problem where jobs that arrive one by one are assigned to i...
Online models that allow recourse are highly effective in situations where classical models are too ...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Makespan minimization on parallel identical machines is a classical and intensively studied problem ...
AbstractMakespan minimization on m identical machines is a fundamental scheduling problem. The goal ...
Abstract. We study a classical problem in online scheduling. A sequence of jobs must be scheduled on...
Scheduling a set of n jobs on m identical parallel machines so as to minimize the makespan or maximi...
Makespan minimization onm identical machines is a fundamental scheduling problem. The goal is to ass...
We explore the machine-minimizing job scheduling problem, which has a rich history in the line of re...
AbstractWe study the online batch scheduling problem on parallel machines with delivery times. Onlin...
We consider the following online scheduling problem in which the input consists of n jobs to be sche...
We consider online scheduling on multiple machines for jobs arriving one-by-one with the objective o...