AbstractThe following scheduling problem is studied: We are given a set of tasks with release times, deadlines, and profit rates. The objective is to determine a 1-processor preemptive schedule of the given tasks that maximizes the overall profit. In the standard model, each completed task brings profit, while non-completed tasks do not. In the metered model, a task brings profit proportional to the execution time even if not completed. For the metered task model, we present an efficient offline algorithm and improve both the lower and upper bounds on the competitive ratio of online algorithms. Furthermore, we prove three lower bound results concerning resource augmentation in both models
Earliest deadline first (EDF) is a widely used algorithm for online deadline scheduling. It has been...
Resource augmentation is a well-established model for analyzing algorithms, particularly in the onli...
We study the problem of scheduling $n$ jobs that arrive over time. We consider a non-preemptive sett...
AbstractThe following scheduling problem is studied: We are given a set of tasks with release times,...
AbstractThis paper is concerned with online algorithms for scheduling jobs with deadlines on a singl...
In this paper, we derive bounds on performance guarantees of online algorithms for real-time preempt...
AbstractThis paper considers an online scheduling problem arising from Quality-of-Service (QoS) appl...
The problem of scheduling jobs that arrive over time on a single machine is well-studied. We study t...
AbstractWe study the problem of scheduling n jobs that arrive over time. We consider a non-preemptiv...
The problem of uniprocessor scheduling under conditions of overload is investigated. The system obje...
LNCS v. 7408 has title: Approximation, randomization, and combinatorial optimization : algorithms an...
AbstractWe consider the problem of preemptively scheduling n independent jobs on m parallel machines...
AbstractWe consider preemptive offline and online scheduling on identical machines and uniformly rel...
We consider the problem of scheduling jobs to minimize the maximum weighted flow-time on a set of re...
AbstractWe consider online scheduling problems to minimize modified total tardiness. The problems ar...
Earliest deadline first (EDF) is a widely used algorithm for online deadline scheduling. It has been...
Resource augmentation is a well-established model for analyzing algorithms, particularly in the onli...
We study the problem of scheduling $n$ jobs that arrive over time. We consider a non-preemptive sett...
AbstractThe following scheduling problem is studied: We are given a set of tasks with release times,...
AbstractThis paper is concerned with online algorithms for scheduling jobs with deadlines on a singl...
In this paper, we derive bounds on performance guarantees of online algorithms for real-time preempt...
AbstractThis paper considers an online scheduling problem arising from Quality-of-Service (QoS) appl...
The problem of scheduling jobs that arrive over time on a single machine is well-studied. We study t...
AbstractWe study the problem of scheduling n jobs that arrive over time. We consider a non-preemptiv...
The problem of uniprocessor scheduling under conditions of overload is investigated. The system obje...
LNCS v. 7408 has title: Approximation, randomization, and combinatorial optimization : algorithms an...
AbstractWe consider the problem of preemptively scheduling n independent jobs on m parallel machines...
AbstractWe consider preemptive offline and online scheduling on identical machines and uniformly rel...
We consider the problem of scheduling jobs to minimize the maximum weighted flow-time on a set of re...
AbstractWe consider online scheduling problems to minimize modified total tardiness. The problems ar...
Earliest deadline first (EDF) is a widely used algorithm for online deadline scheduling. It has been...
Resource augmentation is a well-established model for analyzing algorithms, particularly in the onli...
We study the problem of scheduling $n$ jobs that arrive over time. We consider a non-preemptive sett...