Add to ORKGThis paper establishes tight bounds for the Minimum-weight Spanning Tree (MST) verification problem in the distributed setting. Specifically, we provide an MST verification algorithm that achieves simultaneously Õ(|E|) messages and Õ(√n+D) time, where |E | is the number of edges in the given graph G and D is G’s diameter. On the negative side, we show that any MST verification algorithm must send Ω(|E|) messages and incur Ω̃(√n+D) time in worst case. Our upper bound result appears to indicate that the verification of an MST may be easier than its construction, since for MST construction, both lower bounds of Ω(|E|) messages and Ω( n+D) time hold, but at the moment there is no known distributed algorithm that constructs an MST and achieves...
The paper announces an incremental mechanically-verified design of the algorithm of Gallager, Humble...
A distributed algorithm is presented that constructs the minimum weight spanning tree in a connected...
This paper examines the complexity of distributed algorithms for finding a Minimum Spanning Tree in ...
International audienceThis paper introduces the notion of distributed verification without preproces...
This paper establishes tight bounds for the Minimum-weight Spanning Tree (MST) verification problem ...
We study the verification problem in distributed networks, stated as follows. Let H be a subgraph of...
We study the verification problem in distributed networks, stated as follows. Let $H$ be a subgraph ...
Abstract. In their pioneering paper [4], Gallager et al. introduced a distributed algorithm for cons...
Abstract. A distributed algorithm is presented that constructs the minimum-weight spanning tree of a...
AbstractThis paper studies the problem of constructing a minimum-weight spanning tree (MST) in a dis...
Lower and upper bounds for finding a minimum spanning tree (MST) in a weighted undirected graph on t...
Lower and upper bounds for finding a minimum spanning tree (MST) in a weighted undirected graph on t...
Lower and upper bounds for finding a minimum spanning tree (MST) in a weighted undirected graph on t...
International audienceThis paper develops linear time distributed algorithm, on general graphs, for ...
A distributed algorithm is presented that constructs the minimum-weight spanning tree of an undirect...
The paper announces an incremental mechanically-verified design of the algorithm of Gallager, Humble...
A distributed algorithm is presented that constructs the minimum weight spanning tree in a connected...
This paper examines the complexity of distributed algorithms for finding a Minimum Spanning Tree in ...
International audienceThis paper introduces the notion of distributed verification without preproces...
This paper establishes tight bounds for the Minimum-weight Spanning Tree (MST) verification problem ...
We study the verification problem in distributed networks, stated as follows. Let H be a subgraph of...
We study the verification problem in distributed networks, stated as follows. Let $H$ be a subgraph ...
Abstract. In their pioneering paper [4], Gallager et al. introduced a distributed algorithm for cons...
Abstract. A distributed algorithm is presented that constructs the minimum-weight spanning tree of a...
AbstractThis paper studies the problem of constructing a minimum-weight spanning tree (MST) in a dis...
Lower and upper bounds for finding a minimum spanning tree (MST) in a weighted undirected graph on t...
Lower and upper bounds for finding a minimum spanning tree (MST) in a weighted undirected graph on t...
Lower and upper bounds for finding a minimum spanning tree (MST) in a weighted undirected graph on t...
International audienceThis paper develops linear time distributed algorithm, on general graphs, for ...
A distributed algorithm is presented that constructs the minimum-weight spanning tree of an undirect...
The paper announces an incremental mechanically-verified design of the algorithm of Gallager, Humble...
A distributed algorithm is presented that constructs the minimum weight spanning tree in a connected...
This paper examines the complexity of distributed algorithms for finding a Minimum Spanning Tree in ...