We introduce a new problem that was motivated by a (more complicated) problem arising in a robotized assembly environment. The bin coloring problem is to pack unit size colored items into bins, such that the maximum number of different colors per bin is minimized. Each bin has size B£N. The packing process is subject to the constraint that at any moment in time at most q G N bins are partially filled. Moreover, bins may only be closed if they are filled completely. An online algorithm must pack each item must be packed without knowledge of any future items. We investigate the existence of competitive online algorithms for the bin coloring problem. We prove an upper bound of 3q — 1 and a lower bound of 2q for the competitive ratio of a natur...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
Abstract. In this paper, we study the advice complexity of the online bin packing problem. In this w...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
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...
We introduce a new problem that was motivated by a (more complicated) problem arising in a robotized...
AbstractWe introduce a new problem that was motivated by a (more complicated) problem arising in a r...
In the Colored Bin Packing problem a sequence of items of sizes up to 1 arrives to be packed into bi...
We study the online bin packing problem under two stochastic settings. In the bin packing problem, w...
AbstractWe study a new variant of the online bin-packing problem, in which each item ai is associate...
In competitive analysis, we usually do not put any restrictions on the computational complexity of o...
AbstractIn competitive analysis, we usually do not put any restrictions on the computational complex...
AbstractThe classical bin packing problem is one of the best-known and most widely studied problems ...
A bin of capacity 1 and a finite sequence σ of items of sizes a1,a2,… are considered, where the item...
AbstractWe follow the work of [G. Gutin, T. Jensen, A. Yeo, On-line bin packing with two item sizes,...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
Abstract. In this paper, we study the advice complexity of the online bin packing problem. In this w...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
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...
We introduce a new problem that was motivated by a (more complicated) problem arising in a robotized...
AbstractWe introduce a new problem that was motivated by a (more complicated) problem arising in a r...
In the Colored Bin Packing problem a sequence of items of sizes up to 1 arrives to be packed into bi...
We study the online bin packing problem under two stochastic settings. In the bin packing problem, w...
AbstractWe study a new variant of the online bin-packing problem, in which each item ai is associate...
In competitive analysis, we usually do not put any restrictions on the computational complexity of o...
AbstractIn competitive analysis, we usually do not put any restrictions on the computational complex...
AbstractThe classical bin packing problem is one of the best-known and most widely studied problems ...
A bin of capacity 1 and a finite sequence σ of items of sizes a1,a2,… are considered, where the item...
AbstractWe follow the work of [G. Gutin, T. Jensen, A. Yeo, On-line bin packing with two item sizes,...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...
Abstract. In this paper, we study the advice complexity of the online bin packing problem. In this w...
We study online bounded space bin packing in the resource augmentation model of competitive analysis...