AbstractWe study an on-line machine covering problem, in which jobs arrive one by one and their processing times are known upon their arrival, and jobs are allowed to migrate between machines when a new job is added in the system. However, the total processing time of migration induced by an incoming job is bounded by a constant factor β times the processing time of the incoming job. The objective is to maximize the minimum machine load. In this paper, we present an on-line algorithm with competitive ratio 6/5 for the two identical machines case with β=1. Moreover, the presented on-line algorithm is only a local migration, that is, when one job is assigned to machine i, only the jobs on machine i are allowed to migrate. We also show that th...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Abstract. We consider the problem of scheduling a sequence of jobs to m parallel machines as to maxi...
AbstractIn this paper, we investigate the online scheduling problem on two uniform machines, where t...
AbstractWe study an on-line machine covering problem, in which jobs arrive one by one and their proc...
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...
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...
AbstractThe machine covering problem deals with partitioning a sequence of jobs among a set of machi...
Online models that allow recourse are highly effective in situations where classical models are too...
In general, combinatorial optimization problems are unstable: slight changes on the instance of a pr...
AbstractWe consider a single machine on-line scheduling problem with delivery times. All jobs arrive...
Scheduling a set of n jobs on m identical parallel machines so as to minimize the makespan or maximi...
AbstractThis paper investigates the semi-online machine covering problems on m≥3 parallel identical ...
In the machine cover problem we are given m machines and n jobs to be assigned (scheduled) so that t...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Abstract. We consider the problem of scheduling a sequence of jobs to m parallel machines as to maxi...
AbstractIn this paper, we investigate the online scheduling problem on two uniform machines, where t...
AbstractWe study an on-line machine covering problem, in which jobs arrive one by one and their proc...
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...
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...
AbstractThe machine covering problem deals with partitioning a sequence of jobs among a set of machi...
Online models that allow recourse are highly effective in situations where classical models are too...
In general, combinatorial optimization problems are unstable: slight changes on the instance of a pr...
AbstractWe consider a single machine on-line scheduling problem with delivery times. All jobs arrive...
Scheduling a set of n jobs on m identical parallel machines so as to minimize the makespan or maximi...
AbstractThis paper investigates the semi-online machine covering problems on m≥3 parallel identical ...
In the machine cover problem we are given m machines and n jobs to be assigned (scheduled) so that t...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Abstract. We consider the problem of scheduling a sequence of jobs to m parallel machines as to maxi...
AbstractIn this paper, we investigate the online scheduling problem on two uniform machines, where t...