Abstract. In the bin packing problem we are given an instance consist-ing of a sequence of items with sizes between 0 and 1. The objective is to pack these items into the smallest possible number of bins of unit size. FirstFit and BestFit algorithms are simple online algorithms intro-duced in early seventies, when it was also shown that their asymptotic approximation ratio is equal to 1.7. We present a simple proof of this bound and survey recent developments that lead to the proof that also the absolute approximation ratio of these algorithms is exactly 1.7. More precisely, if the optimum needs Opt bins, the algorithms use at most b1.7 · OPTc bins and for each value of Opt, there are instances that actually need so many bins. We also discu...
textabstractWe solve an open problem in the literature by providing an online algorithm for multidim...
AbstractWe study a new variant of the online bin-packing problem, in which each item ai is associate...
AbstractOn-line algorithms have been extensively studied for the one-dimensional bin packing problem...
In the bin packing problem we are given an instance consisting of a sequence of items with sizes bet...
We give a simple proof and a generalization of the classical result which says that the (asymptotic)...
AbstractThe classical bin packing problem is one of the best-known and most widely studied problems ...
In early seventies it was shown that the asymptotic approximation ratio of BestFit bin packing is eq...
We revisit the classic online bin packing problem studied in the half-century. In this problem, item...
We consider the NP Hard problem of online Bin Packing while requiring that larger (or longer) items ...
AbstractIn competitive analysis, we usually do not put any restrictions on the computational complex...
We improve the lower bound on the asymptotic competitive ratio of any online algorithm for bin packi...
We analyze approximation algorithms for bounded-space bin packing by comparing them against the opti...
In competitive analysis, we usually do not put any restrictions on the computational complexity of o...
AbstractUsually, for bin packing problems, we try to minimize the number of bins used or in the case...
In the classical bin packing problem, one is asked to pack items of various sizes into the minimum n...
textabstractWe solve an open problem in the literature by providing an online algorithm for multidim...
AbstractWe study a new variant of the online bin-packing problem, in which each item ai is associate...
AbstractOn-line algorithms have been extensively studied for the one-dimensional bin packing problem...
In the bin packing problem we are given an instance consisting of a sequence of items with sizes bet...
We give a simple proof and a generalization of the classical result which says that the (asymptotic)...
AbstractThe classical bin packing problem is one of the best-known and most widely studied problems ...
In early seventies it was shown that the asymptotic approximation ratio of BestFit bin packing is eq...
We revisit the classic online bin packing problem studied in the half-century. In this problem, item...
We consider the NP Hard problem of online Bin Packing while requiring that larger (or longer) items ...
AbstractIn competitive analysis, we usually do not put any restrictions on the computational complex...
We improve the lower bound on the asymptotic competitive ratio of any online algorithm for bin packi...
We analyze approximation algorithms for bounded-space bin packing by comparing them against the opti...
In competitive analysis, we usually do not put any restrictions on the computational complexity of o...
AbstractUsually, for bin packing problems, we try to minimize the number of bins used or in the case...
In the classical bin packing problem, one is asked to pack items of various sizes into the minimum n...
textabstractWe solve an open problem in the literature by providing an online algorithm for multidim...
AbstractWe study a new variant of the online bin-packing problem, in which each item ai is associate...
AbstractOn-line algorithms have been extensively studied for the one-dimensional bin packing problem...