Add to ORKGWe consider the on-line problem of call admission and routing on trees and meshes. Previous work considered randomized algorithms and analyzed the {\em competitive ratio} of the algorithms. However, these previous algorithms could obtain very low profit with high probability. We investigate the question if it is possible to devise on-line competitive algorithms for these problems that would guarantee a ``good'' solution with ``good'' probability. We give a new family of randomized algorithms with provably optimal (up to constant factors) competitive ratios, and provably good probability to get a profit close to the expectation. We also give lower bounds that show bounds on how high the probability of such algorithms, to get a profit close t...
We study situations in which an algorithm must make decisions about how to best route and schedule d...
We are given nodes in a communication network that request connections to other nodes. A central aut...
In online problems, the input forms a finite sequence of requests. Each request must be processed, i...
We consider the on-line problem of call admission and routing on trees and meshes. Previous work con...
ALESSIO PRESCIUTTI † , AND ADI ROSÉN ‡ Abstract. We consider the problem of on-line call admission a...
We consider the maximum disjoint paths problem and its generalization, the call control problem, in ...
[[abstract]]This paper considers a family of randomized on-line algorithms. Algorithm R(m), where 1 ...
AbstractKarp and Zhang developed a general randomized parallel algorithm for solving branch and boun...
AbstractThis paper concerns two fundamental but somewhat neglected issues, both related to the desig...
We consider the problem of call routing and admission control in general topology networks. Given a ...
[[abstract]]This paper considers a family of randomized on-line algorithms, Algorithm R(m), where 1&...
We present lower bounds on the competitive ratio of randomized algorithms for a wide class of on-lin...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
Fat-trees are a class of routing networks for hardware-efficient parallel computation. This paper pr...
We study situations in which an algorithm must make decisions about how to best route and schedule d...
We are given nodes in a communication network that request connections to other nodes. A central aut...
In online problems, the input forms a finite sequence of requests. Each request must be processed, i...
We consider the on-line problem of call admission and routing on trees and meshes. Previous work con...
ALESSIO PRESCIUTTI † , AND ADI ROSÉN ‡ Abstract. We consider the problem of on-line call admission a...
We consider the maximum disjoint paths problem and its generalization, the call control problem, in ...
[[abstract]]This paper considers a family of randomized on-line algorithms. Algorithm R(m), where 1 ...
AbstractKarp and Zhang developed a general randomized parallel algorithm for solving branch and boun...
AbstractThis paper concerns two fundamental but somewhat neglected issues, both related to the desig...
We consider the problem of call routing and admission control in general topology networks. Given a ...
[[abstract]]This paper considers a family of randomized on-line algorithms, Algorithm R(m), where 1&...
We present lower bounds on the competitive ratio of randomized algorithms for a wide class of on-lin...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
Fat-trees are a class of routing networks for hardware-efficient parallel computation. This paper pr...
We study situations in which an algorithm must make decisions about how to best route and schedule d...
We are given nodes in a communication network that request connections to other nodes. A central aut...
In online problems, the input forms a finite sequence of requests. Each request must be processed, i...