In this paper we develop an easily applicable algorithmic technique/tool for developing approximation schemes for certain types of combinatorial optimization problems. Special cases that are covered by our result show up in many places in the literature. For every such special case, a particular rounding trick has been implemented in a slightly different way, with slightly different arguments, and with slightly different worst case estimations. Usually, the rounding procedure depended on certain upper or lower bounds on the optimal objective value that have to be justified in a separate argument. Our easily applied result unifies many of these results, and sometimes it even leads to a simpler proof. We demonstrate how our result can be easi...
In combinatorial optimization, the most important challenges are presented by problems belonging to ...
We consider scheduling problems over scenarios where the goal is to find a single assignment of the ...
This paper presents the main results of the master dissertation of Eduardo Candido Xavier in the stu...
In this paper we develop an easily applicable algorithmic technique/tool for developing approximatio...
AbstractIn this paper we develop an easily applicable algorithmic technique/tool for developing appr...
We continue the recent study of priority algorithms initiated by Borodin et al. [3]. The denition of...
AbstractApproximation algorithms may be inevitable choice when it comes to the solution of difficult...
. In the past few years, there has been significant progress in our understanding of the extent to w...
The strongly NP-hard scheduling problem of minimizing the maximum lateness on one machine subject to...
Recently there has been much progress on the design of approximation algorithms for a variety ofsche...
Recently there has been much progress on the design of approximation algorithms for a variety of sch...
Solving large combinatorial optimization problems is a ubiquitous task across multiple disciplines. ...
In this paper, we present a general framework for designing approximation schemes for combinatorial ...
We call a minimum cost restricted time combinatorial optimization (MCRT) problem any problem that ha...
In combinatorial optimization, the most important challenges are presented by problems belonging to ...
We consider scheduling problems over scenarios where the goal is to find a single assignment of the ...
This paper presents the main results of the master dissertation of Eduardo Candido Xavier in the stu...
In this paper we develop an easily applicable algorithmic technique/tool for developing approximatio...
AbstractIn this paper we develop an easily applicable algorithmic technique/tool for developing appr...
We continue the recent study of priority algorithms initiated by Borodin et al. [3]. The denition of...
AbstractApproximation algorithms may be inevitable choice when it comes to the solution of difficult...
. In the past few years, there has been significant progress in our understanding of the extent to w...
The strongly NP-hard scheduling problem of minimizing the maximum lateness on one machine subject to...
Recently there has been much progress on the design of approximation algorithms for a variety ofsche...
Recently there has been much progress on the design of approximation algorithms for a variety of sch...
Solving large combinatorial optimization problems is a ubiquitous task across multiple disciplines. ...
In this paper, we present a general framework for designing approximation schemes for combinatorial ...
We call a minimum cost restricted time combinatorial optimization (MCRT) problem any problem that ha...
In combinatorial optimization, the most important challenges are presented by problems belonging to ...
We consider scheduling problems over scenarios where the goal is to find a single assignment of the ...
This paper presents the main results of the master dissertation of Eduardo Candido Xavier in the stu...