In the k-server problem we wish to minimize, in an online fashion, the movement cost of k servers in response to a sequence of requests. For 2 servers, it is known that the optimal deterministic algorithm has competitive ratio 2, and it has been a long-standing open problem whether it is possible to improve this ratio using randomization. We give a positive answer to this problem when the underlying metric space is a real line, by providing a randomized online algorithm for this case with competitive ratio at most 155 78 ß 1:987. This is the first algorithm for 2 servers that achieves a competitive ratio smaller than 2 in a non-uniform metric space with more than three points. We consider a more general problem called the (k; l)-server pr...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
In this paper we give deterministic competitive k-server algorithms for all k and all metric spaces....
AbstractIn the k-server problem we wish to minimize, in an online fashion, the movement cost of k se...
We prove that there exists a randomized online algorithm for the 2-server 3-point problem whose expe...
Abstract. The k{server problem is one of the most important and well studied problems in the area of...
We give the first polylogarithmic-competitive randomized algorithm for the k-server problem on an ar...
We give the first polylogarithmic-competitive randomized online algorithm for the k-server problem o...
We give a O(n^2 \over 3}\log{n})-competitive randomized k--server algorithm when the underlying metr...
AbstractIt has been a long-standing open problem to determine the exact randomized competitiveness o...
AbstractWe consider a generalization of the 2-server problem in which servers have different costs. ...
In this paper we give deterministic competitive k-server algorithms for all k and all metric spaces....
In this paper, we prove lower bounds on the competitive ratio of randomized algorithms for two on-li...
The weighted k-server problem is a generalization of the k-server problem wherein the cost of moving...
The famous $k$-Server Problem covers plenty of resource allocation scenarios, and several variations...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
In this paper we give deterministic competitive k-server algorithms for all k and all metric spaces....
AbstractIn the k-server problem we wish to minimize, in an online fashion, the movement cost of k se...
We prove that there exists a randomized online algorithm for the 2-server 3-point problem whose expe...
Abstract. The k{server problem is one of the most important and well studied problems in the area of...
We give the first polylogarithmic-competitive randomized algorithm for the k-server problem on an ar...
We give the first polylogarithmic-competitive randomized online algorithm for the k-server problem o...
We give a O(n^2 \over 3}\log{n})-competitive randomized k--server algorithm when the underlying metr...
AbstractIt has been a long-standing open problem to determine the exact randomized competitiveness o...
AbstractWe consider a generalization of the 2-server problem in which servers have different costs. ...
In this paper we give deterministic competitive k-server algorithms for all k and all metric spaces....
In this paper, we prove lower bounds on the competitive ratio of randomized algorithms for two on-li...
The weighted k-server problem is a generalization of the k-server problem wherein the cost of moving...
The famous $k$-Server Problem covers plenty of resource allocation scenarios, and several variations...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
In this paper we give deterministic competitive k-server algorithms for all k and all metric spaces....