The problem of computing the strength and performing optimal reinforcement for an edge-weighted graph G(V, E, w) is well-studied. In this paper, we present fast (sequential linear time and parallel logarithmic time) on-line algorithms for optimally reinforcing the graph when the reinforcement material is available continuously on-line. These are the first on-line algorithms for this problem. We invest O(\V\(3)\E\log\V\) time (equivalent to Omega(\V\) invocations of the fastest known algorithms for optimal reinforcement) in preprocessing the graph before the start of our algorithms. It is shown that the output of our on-line algorithms is as good as that of the off-line algorithms. Thus our algorithms are better than the fastest off-line alg...
Given a graph G=(V,E) with real edge weights, the optimum cooperation problem consists in determinin...
Abstract. Many applications produce massive complex networks whose analysis would benefit from paral...
This thesis studies exponential time algorithms that give optimum solutions to optimization problems...
We design exact algorithms for the following two problems in survivable network design: (i) designin...
AbstractMotivated by routing issues in ad hoc networks, we present polylogarithmic-time distributed ...
Abstract. We give an algorithm for the following problem: given a graph G = (V, E) with edge-weights...
Motivated by routing issues in ad hoc networks, we present polylogarithmic-time distributed algorith...
In this paper we use a single unifying approach (which we call the Principal Lattice of Partitions a...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
. The problem of finding the minimum topology of multiprocessing substrates supporting parallel exec...
AbstractWe provide a new approach to the on-line load balancing problem in the case of restricted as...
We consider the performance of the greedy algorithm and of on-line algorithms for partition problems...
AbstractKarp and Zhang developed a general randomized parallel algorithm for solving branch and boun...
We present fully dynamic algorithms for maintaining 3- and 5-spanners of undirected graphs. For unwe...
Two compression methods for representing graphs are presented, in conjunction with algorithms applyi...
Given a graph G=(V,E) with real edge weights, the optimum cooperation problem consists in determinin...
Abstract. Many applications produce massive complex networks whose analysis would benefit from paral...
This thesis studies exponential time algorithms that give optimum solutions to optimization problems...
We design exact algorithms for the following two problems in survivable network design: (i) designin...
AbstractMotivated by routing issues in ad hoc networks, we present polylogarithmic-time distributed ...
Abstract. We give an algorithm for the following problem: given a graph G = (V, E) with edge-weights...
Motivated by routing issues in ad hoc networks, we present polylogarithmic-time distributed algorith...
In this paper we use a single unifying approach (which we call the Principal Lattice of Partitions a...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
. The problem of finding the minimum topology of multiprocessing substrates supporting parallel exec...
AbstractWe provide a new approach to the on-line load balancing problem in the case of restricted as...
We consider the performance of the greedy algorithm and of on-line algorithms for partition problems...
AbstractKarp and Zhang developed a general randomized parallel algorithm for solving branch and boun...
We present fully dynamic algorithms for maintaining 3- and 5-spanners of undirected graphs. For unwe...
Two compression methods for representing graphs are presented, in conjunction with algorithms applyi...
Given a graph G=(V,E) with real edge weights, the optimum cooperation problem consists in determinin...
Abstract. Many applications produce massive complex networks whose analysis would benefit from paral...
This thesis studies exponential time algorithms that give optimum solutions to optimization problems...