We study the online bin packing problem under two stochastic settings. In the bin packing problem, we are given n items with sizes in (0,1] and the goal is to pack them into the minimum number of unit-sized bins. First, we study bin packing under the i.i.d. model, where item sizes are sampled independently and identically from a distribution in (0,1]. Both the distribution and the total number of items are unknown. The items arrive one by one and their sizes are revealed upon their arrival and they must be packed immediately and irrevocably in bins of size 1. We provide a simple meta-algorithm that takes an offline $\alpha$-asymptotic approximation algorithm and provides a polynomial-time $(\alpha + \varepsilon)$-competitive algorithm for o...
A bin of capacity 1 and a finite sequence σ of items of sizes a1,a2,… are considered, where the item...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
The typical online bin-packing problem requires the fitting of a sequence of rationals in (0, 1] int...
AbstractWe study a new variant of the online bin-packing problem, in which each item ai is associate...
AbstractThe classical bin packing problem is one of the best-known and most widely studied problems ...
AbstractWe follow the work of [G. Gutin, T. Jensen, A. Yeo, On-line bin packing with two item sizes,...
We introduce a new problem that was motivated by a (more complicated) problem arising in a robotized...
We introduce a new problem that was motivated by a (more complicated) problem arising in a robotized...
AbstractIn competitive analysis, we usually do not put any restrictions on the computational complex...
We revisit the classic online bin packing problem studied in the half-century. In this problem, item...
Abstract. In the bin packing problem we are given an instance consist-ing of a sequence of items wit...
In competitive analysis, we usually do not put any restrictions on the computational complexity of o...
Abstract. In this paper, we study the advice complexity of the online bin packing problem. In this w...
We improve the lower bound on the asymptotic competitive ratio of any online algorithm for bin packi...
We solve an open problem in the literature by providing an online algorithm for multidimensional bin...
A bin of capacity 1 and a finite sequence σ of items of sizes a1,a2,… are considered, where the item...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
The typical online bin-packing problem requires the fitting of a sequence of rationals in (0, 1] int...
AbstractWe study a new variant of the online bin-packing problem, in which each item ai is associate...
AbstractThe classical bin packing problem is one of the best-known and most widely studied problems ...
AbstractWe follow the work of [G. Gutin, T. Jensen, A. Yeo, On-line bin packing with two item sizes,...
We introduce a new problem that was motivated by a (more complicated) problem arising in a robotized...
We introduce a new problem that was motivated by a (more complicated) problem arising in a robotized...
AbstractIn competitive analysis, we usually do not put any restrictions on the computational complex...
We revisit the classic online bin packing problem studied in the half-century. In this problem, item...
Abstract. In the bin packing problem we are given an instance consist-ing of a sequence of items wit...
In competitive analysis, we usually do not put any restrictions on the computational complexity of o...
Abstract. In this paper, we study the advice complexity of the online bin packing problem. In this w...
We improve the lower bound on the asymptotic competitive ratio of any online algorithm for bin packi...
We solve an open problem in the literature by providing an online algorithm for multidimensional bin...
A bin of capacity 1 and a finite sequence σ of items of sizes a1,a2,… are considered, where the item...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
The typical online bin-packing problem requires the fitting of a sequence of rationals in (0, 1] int...