AbstractThe purpose of this paper is mainly to prove the following theorem: for every polynomial time algorithm running in time T(n) and guaranteeing standard-approximation ratio ϱ for bin-packing, there exists an algorithm running in time O(nT(n)) and achieving differential-approximation ratio 2 − ϱ for BP. This theorem has two main impacts. The first one is “operational”, deriving a polynomial time differential-approximation schema for bin-packing. The second one is structural, establishing a kind of reduction (to our knowledge not existing until now) between standard approximation and differential one
We overview recent results on the existence of polynomial time approximation schemes for some dense ...
The Bin Packing Problem is one of the most important optimization problems. In recent years, due to ...
AbstractWe study the parallel complexity of polynomial heuristics for the bin packing problem. We sh...
International audienceThe purpose of this paper is to mainly prove the following theorem: for every ...
The purpose of this paper is mainly to prove the following theorem: for every polynomial time algori...
We analyze the approximation behavior of some of the best-known polynomial-time approximation algori...
AbstractWe use a new approximation measure, the differential approximation ratio, to derive polynomi...
We use a new approximation measure, the differential approximation ratio, to derive polynomial-time ...
We first motivate and define a notion of asymptotic differential approximation ratio. For this, we i...
In this paper we focus on problems which do not admit a constant-factor approximation in polynomial ...
URL des Cahiers : http://mse.univ-paris1.fr/MSEFramCahier2006.htmCahiers de la Maison des Sciences E...
The fact that polynomial time algorithm is very unlikely to be devised for an optimal solving of the...
Abstract: The fact that polynomial time algorithm is very unlikely to be devised for an optimal solv...
Cette thèse s'inscrit dans le domaine de l'étude des problèmes de NPO (problèmes d'optimisation dont...
AbstractA general approximation technique for a large class of NP-hard optimization problems which i...
We overview recent results on the existence of polynomial time approximation schemes for some dense ...
The Bin Packing Problem is one of the most important optimization problems. In recent years, due to ...
AbstractWe study the parallel complexity of polynomial heuristics for the bin packing problem. We sh...
International audienceThe purpose of this paper is to mainly prove the following theorem: for every ...
The purpose of this paper is mainly to prove the following theorem: for every polynomial time algori...
We analyze the approximation behavior of some of the best-known polynomial-time approximation algori...
AbstractWe use a new approximation measure, the differential approximation ratio, to derive polynomi...
We use a new approximation measure, the differential approximation ratio, to derive polynomial-time ...
We first motivate and define a notion of asymptotic differential approximation ratio. For this, we i...
In this paper we focus on problems which do not admit a constant-factor approximation in polynomial ...
URL des Cahiers : http://mse.univ-paris1.fr/MSEFramCahier2006.htmCahiers de la Maison des Sciences E...
The fact that polynomial time algorithm is very unlikely to be devised for an optimal solving of the...
Abstract: The fact that polynomial time algorithm is very unlikely to be devised for an optimal solv...
Cette thèse s'inscrit dans le domaine de l'étude des problèmes de NPO (problèmes d'optimisation dont...
AbstractA general approximation technique for a large class of NP-hard optimization problems which i...
We overview recent results on the existence of polynomial time approximation schemes for some dense ...
The Bin Packing Problem is one of the most important optimization problems. In recent years, due to ...
AbstractWe study the parallel complexity of polynomial heuristics for the bin packing problem. We sh...