The cover time and mixing time of graphs has much relevance to algorithmic applications and has been extensively investigated. Recently, with the advent of ad hoc and sensor networks, an interesting class of random graphs, namely random geometric graphs, has gained new relevance and its properties have been the subject of much study. A random geometric graph G(n, r) is obtained by placing n points uniformly at random on the unit square and connecting two points iff their Euclidean distance is at most r. The phase transition behavior with respect to the radius r of such graphs has been of special interest. We show that there exists a critical radius ropt such that for any r ≥ roptG(n, r) has optimal cover time of Θ(n log n) with high probabi...
A simple random walk on a graph is a sequence of movements from one vertex to another where at each ...
A random geometric graph G(n, r) is obtained by spreading n points uni-formly at random in a unit sq...
Abstract. A random geometric graph G(n; r) is obtained by spreading n points uniformly at random in ...
AbstractThe cover time and mixing time of graphs has much relevance to algorithmic applications and ...
Abstract. The cover time of graphs has much relevance to algorithmic applications and has been exten...
A geometric random graph, G d (n, r), is formed as follows: place n nodes uniformly at random onto t...
AbstractWe study properties of the uniform random intersection graph model G(n,m,d). We find asympto...
In this paper, we study the acquaintance time AC(G) defined for a connected graph G. We focus on G(n...
We study the emerging phenomenon of ad hoc, sensorbased communication networks. The communication is...
Abstract. In this paper, we study the acquaintance time AC(G) defined for a connected graph G. We fo...
AbstractWe study the emerging phenomenon of ad hoc, sensor-based communication networks. The communi...
AbstractWe investigate important combinatorial and algorithmic properties of Gn,m,p random intersect...
The cover time of a graph is a celebrated example of a parameter that is easy to approx-imate using ...
AbstractA random geometric graph G(n,r) is obtained by spreading n points uniformly at random in a u...
A random geometric graph G (n, r) is obtained by spreading n points uniformly at random in a unit sq...
A simple random walk on a graph is a sequence of movements from one vertex to another where at each ...
A random geometric graph G(n, r) is obtained by spreading n points uni-formly at random in a unit sq...
Abstract. A random geometric graph G(n; r) is obtained by spreading n points uniformly at random in ...
AbstractThe cover time and mixing time of graphs has much relevance to algorithmic applications and ...
Abstract. The cover time of graphs has much relevance to algorithmic applications and has been exten...
A geometric random graph, G d (n, r), is formed as follows: place n nodes uniformly at random onto t...
AbstractWe study properties of the uniform random intersection graph model G(n,m,d). We find asympto...
In this paper, we study the acquaintance time AC(G) defined for a connected graph G. We focus on G(n...
We study the emerging phenomenon of ad hoc, sensorbased communication networks. The communication is...
Abstract. In this paper, we study the acquaintance time AC(G) defined for a connected graph G. We fo...
AbstractWe study the emerging phenomenon of ad hoc, sensor-based communication networks. The communi...
AbstractWe investigate important combinatorial and algorithmic properties of Gn,m,p random intersect...
The cover time of a graph is a celebrated example of a parameter that is easy to approx-imate using ...
AbstractA random geometric graph G(n,r) is obtained by spreading n points uniformly at random in a u...
A random geometric graph G (n, r) is obtained by spreading n points uniformly at random in a unit sq...
A simple random walk on a graph is a sequence of movements from one vertex to another where at each ...
A random geometric graph G(n, r) is obtained by spreading n points uni-formly at random in a unit sq...
Abstract. A random geometric graph G(n; r) is obtained by spreading n points uniformly at random in ...