We report our findings on an extensive empirical study on the performance of several algorithms for maintaining minimum spanning trees in dynamic graphs. In particular, we have implemented and tested several variants of the polylogarithmic algorithm by Holm et al, sparsification on top of Frederickson's algorithm, and other (less sophisticated) dynamic algorithms. In our experiments, we considered as test sets several random, semi-random and worst-case inputs previously considered in the literature together with inputs arising from real-world applications (e.g., a graph of the Internet Autonomous Systems). (C) 2009 Elsevier B.V. All rights reserved
We describe an efficient algorithm for maintaining a minimum spanning tree (MST) in a graph subject ...
Mehler A. Minimum Spanning Markovian Trees: Introducing Context-Sensitivity into the Generation of S...
Komlos has devised a way to use a linear number of binary comparisons to test whether a given spanni...
We report our findings on an extensive empirical study on the performance of several algorithms for ...
AbstractWe report our findings on an extensive empirical study on the performance of several algorit...
We report our findings on an extensive empirical study on several algorithms for maintaining minimum...
) Giuseppe Amato Giuseppe Cattaneo y Giuseppe F. Italiano z Abstract We conduct an extensive...
We consider the problem of maintaining a minimum spanning tree of a dynamically changing graph, subj...
The minimum-weight spanning tree problem is one of the most typical and well-known problems of combi...
Deterministic fully dynamic graph algorithms are presented for connectivity and minimum spanning for...
We compare algorithms for the construction of a minimum spanning tree through large-scale experiment...
International audienceIn this paper, we study weakly dynamic undirected graphs, that can be used to ...
We state a new sampling lemma and use it to improve the running time of dynamic graph algorithms. F...
Designing efficient dynamic graph algorithms against an adaptive adversary is a major goal in the fi...
In this paper we present deterministic fully dynamic algorithms for maintaining several properties o...
We describe an efficient algorithm for maintaining a minimum spanning tree (MST) in a graph subject ...
Mehler A. Minimum Spanning Markovian Trees: Introducing Context-Sensitivity into the Generation of S...
Komlos has devised a way to use a linear number of binary comparisons to test whether a given spanni...
We report our findings on an extensive empirical study on the performance of several algorithms for ...
AbstractWe report our findings on an extensive empirical study on the performance of several algorit...
We report our findings on an extensive empirical study on several algorithms for maintaining minimum...
) Giuseppe Amato Giuseppe Cattaneo y Giuseppe F. Italiano z Abstract We conduct an extensive...
We consider the problem of maintaining a minimum spanning tree of a dynamically changing graph, subj...
The minimum-weight spanning tree problem is one of the most typical and well-known problems of combi...
Deterministic fully dynamic graph algorithms are presented for connectivity and minimum spanning for...
We compare algorithms for the construction of a minimum spanning tree through large-scale experiment...
International audienceIn this paper, we study weakly dynamic undirected graphs, that can be used to ...
We state a new sampling lemma and use it to improve the running time of dynamic graph algorithms. F...
Designing efficient dynamic graph algorithms against an adaptive adversary is a major goal in the fi...
In this paper we present deterministic fully dynamic algorithms for maintaining several properties o...
We describe an efficient algorithm for maintaining a minimum spanning tree (MST) in a graph subject ...
Mehler A. Minimum Spanning Markovian Trees: Introducing Context-Sensitivity into the Generation of S...
Komlos has devised a way to use a linear number of binary comparisons to test whether a given spanni...