We solve an open problem in the literature by providing an online algorithm for multidimensional bin packing that uses only bounded space. To achieve this, we introduce a new technique for classifying the items to be packed. We show that our algorithm is optimal among bounded space algorithms for any dimension d> 1. Its asymptotic performance ratio is (Π∞) d, where Π ∞ ≈ 1.691 is the asymptotic performance ratio of the one-dimensional algorithm Harmonic. A modified version of this algorithm for the case where all items are hypercubes is also shown to be optimal. Its asymptotic performance ratio is sublinear in d. Furthermore, we extend the techniques used in these algorithms to give optimal algorithms for online bounded space variable-s...
We analyze approximation algorithms for bounded-space bin packing by comparing them against the opti...
Abstract In this thesis, we deal with two packing problems: the online bin packing and the geometric...
In this paper, we study 1-space bounded multi-dimensional bin packing and hypercube packing. A seque...
textabstractWe solve an open problem in the literature by providing an online algorithm for multidim...
In this paper, we study 1-space bounded multi-dimensional bin packing. A sequence of items arrive ov...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
In competitive analysis, we usually do not put any restrictions on the computational complexity of o...
AbstractWe study on-line bounded space bin-packing in the resource augmentation model of competitive...
Packing a given sequence of items into as few bins as possible in an online fashion is a widely stud...
AbstractIn hypercube packing, we receive a sequence of hypercubes that need to be packed into unit h...
In hypercube packing, we receive a sequence of hypercubes that need to be packed into unit hypercube...
AbstractThe classical bin packing problem is one of the best-known and most widely studied problems ...
Abstract. In the bin packing problem we are given an instance consist-ing of a sequence of items wit...
AbstractIn competitive analysis, we usually do not put any restrictions on the computational complex...
We analyze approximation algorithms for bounded-space bin packing by comparing them against the opti...
Abstract In this thesis, we deal with two packing problems: the online bin packing and the geometric...
In this paper, we study 1-space bounded multi-dimensional bin packing and hypercube packing. A seque...
textabstractWe solve an open problem in the literature by providing an online algorithm for multidim...
In this paper, we study 1-space bounded multi-dimensional bin packing. A sequence of items arrive ov...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
In competitive analysis, we usually do not put any restrictions on the computational complexity of o...
AbstractWe study on-line bounded space bin-packing in the resource augmentation model of competitive...
Packing a given sequence of items into as few bins as possible in an online fashion is a widely stud...
AbstractIn hypercube packing, we receive a sequence of hypercubes that need to be packed into unit h...
In hypercube packing, we receive a sequence of hypercubes that need to be packed into unit hypercube...
AbstractThe classical bin packing problem is one of the best-known and most widely studied problems ...
Abstract. In the bin packing problem we are given an instance consist-ing of a sequence of items wit...
AbstractIn competitive analysis, we usually do not put any restrictions on the computational complex...
We analyze approximation algorithms for bounded-space bin packing by comparing them against the opti...
Abstract In this thesis, we deal with two packing problems: the online bin packing and the geometric...
In this paper, we study 1-space bounded multi-dimensional bin packing and hypercube packing. A seque...