This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for some basic graph problems. The common ingredient in our results is a deterministic distributed algorithm for computing a certain hitting set, which can replace the random part of a number of standard randomized distributed algorithms. This deterministic hitting set algorithm itself is derived using a simple method of conditional expectations. As one main end-result of this derandomized hitting set, we get a deterministic distributed algorithm with round complexity 2^O(sqrt{log n * log log n}) for computing a (2k-1)-spanner of size O~(n^{1+1/k}). This improves considerably on a recent algorithm of Grossman and Parter [DISC'17] which needs O(n^{...
In this paper we present various distributed algorithms for LP-type problems in the well-known gossi...
We present improved deterministic distributed algorithms for a number of well-studied matching probl...
We overview a recent line of work [Rozhoň and Ghaffari at STOC 2020; Ghaffari, Harris, and Kuhn at F...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
Graph spanners are fundamental graph structures with a wide range of applications in distributed net...
Network decomposition is a central tool in distributed graph algorithms. We present two improvements...
Finding a small dominating set is one of the most fundamental problems of traditional graph theory. ...
Rapport de rechercheThe paper presents a deterministic distributed algorithm that, given k>0, constr...
The paper presents a deterministic distributed algorithm that, given k> 1, con-structs in k round...
The spread of computer networks, from sensor networks to the Internet, creates an ever-growing need ...
This paper addresses the cornerstone family of local problems in distributed computing, and investig...
ABSTRACT Finding a small dominating set is one of the most fundamental problems of traditional graph...
AbstractWe consider a connected undirected graph G(n,m) with n nodes and m edges. A k-dominating set...
This paper presents efficient distributed algorithms for a number of fundamental problems in the are...
In this brief announcement we summarize our results concerning distributed algorithms for LP-type pr...
In this paper we present various distributed algorithms for LP-type problems in the well-known gossi...
We present improved deterministic distributed algorithms for a number of well-studied matching probl...
We overview a recent line of work [Rozhoň and Ghaffari at STOC 2020; Ghaffari, Harris, and Kuhn at F...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
Graph spanners are fundamental graph structures with a wide range of applications in distributed net...
Network decomposition is a central tool in distributed graph algorithms. We present two improvements...
Finding a small dominating set is one of the most fundamental problems of traditional graph theory. ...
Rapport de rechercheThe paper presents a deterministic distributed algorithm that, given k>0, constr...
The paper presents a deterministic distributed algorithm that, given k> 1, con-structs in k round...
The spread of computer networks, from sensor networks to the Internet, creates an ever-growing need ...
This paper addresses the cornerstone family of local problems in distributed computing, and investig...
ABSTRACT Finding a small dominating set is one of the most fundamental problems of traditional graph...
AbstractWe consider a connected undirected graph G(n,m) with n nodes and m edges. A k-dominating set...
This paper presents efficient distributed algorithms for a number of fundamental problems in the are...
In this brief announcement we summarize our results concerning distributed algorithms for LP-type pr...
In this paper we present various distributed algorithms for LP-type problems in the well-known gossi...
We present improved deterministic distributed algorithms for a number of well-studied matching probl...
We overview a recent line of work [Rozhoň and Ghaffari at STOC 2020; Ghaffari, Harris, and Kuhn at F...