We study the verification problem in distributed networks, stated as follows. Let $H$ be a subgraph of a network $G$ where each vertex of $G$ knows which edges incident on it are in $H$. We would like to verify whether $H$ has some properties, e.g., if it is a tree or if it is connected (every node knows at the end of the process whether $H$ has the specified property or not). We would like to perform this verification in a decentralized fashion via a distributed algorithm. The time complexity of verification is measured as the number of rounds of distributed communication. In this paper we initiate a systematic study of distributed verification and give almost tight lower bounds on the running time of distributed verification algorithms fo...
The spread of computer networks, from sensor networks to the Internet, creates an ever-growing need ...
Abstract. A distributed algorithm is presented that constructs the minimum-weight spanning tree of a...
AbstractFor a given graph G over n vertices, let OPTG denote the size of an optimal solution in G of...
We study the verification problem in distributed networks, stated as follows. Let $H$ be a subgraph ...
We study the verification problem in distributed networks, stated as follows. Let H be a subgraph of...
This paper establishes tight bounds for the Minimum-weight Spanning Tree (MST) verification problem ...
International audienceThis paper introduces the notion of distributed verification without preproces...
Due to the advent of various advanced network technologies, distributed algorithms have become an im...
Motivated by the increasing need for fast processing of large-scale graphs, we study a number of fun...
A distributed network is modeled by a graph having n nodes (processors) and diameter D. We study the...
Many distributed optimization algorithms achieve an existentially-optimal round complexity (of (O?(?...
In the study of deterministic distributed algorithms it is commonly assumed that each node has a uni...
In this paper we consider the communication complexity of approximation algorithms for max-imum matc...
This paper establishes tight bounds for the Minimum-weight Spanning Tree (MST) verification problem ...
We present a uniform approach to design efficient distributed approximation algorithms for various f...
The spread of computer networks, from sensor networks to the Internet, creates an ever-growing need ...
Abstract. A distributed algorithm is presented that constructs the minimum-weight spanning tree of a...
AbstractFor a given graph G over n vertices, let OPTG denote the size of an optimal solution in G of...
We study the verification problem in distributed networks, stated as follows. Let $H$ be a subgraph ...
We study the verification problem in distributed networks, stated as follows. Let H be a subgraph of...
This paper establishes tight bounds for the Minimum-weight Spanning Tree (MST) verification problem ...
International audienceThis paper introduces the notion of distributed verification without preproces...
Due to the advent of various advanced network technologies, distributed algorithms have become an im...
Motivated by the increasing need for fast processing of large-scale graphs, we study a number of fun...
A distributed network is modeled by a graph having n nodes (processors) and diameter D. We study the...
Many distributed optimization algorithms achieve an existentially-optimal round complexity (of (O?(?...
In the study of deterministic distributed algorithms it is commonly assumed that each node has a uni...
In this paper we consider the communication complexity of approximation algorithms for max-imum matc...
This paper establishes tight bounds for the Minimum-weight Spanning Tree (MST) verification problem ...
We present a uniform approach to design efficient distributed approximation algorithms for various f...
The spread of computer networks, from sensor networks to the Internet, creates an ever-growing need ...
Abstract. A distributed algorithm is presented that constructs the minimum-weight spanning tree of a...
AbstractFor a given graph G over n vertices, let OPTG denote the size of an optimal solution in G of...