We theoretically and experimentally analyze the process of adding sparse random links to random wireless networks modeled as a random geometric graph. While this process has been previously proposed, we are the first to prove theoretical bounds on the improvement to the graph diameter and random walk properties of the resulting graph as a function of the frequency of wires used, where this frequency is diminishingly small. In particular, given a parameter k controlling sparsity, any node has a probability of 1 / k 2 n r 2 for being a wired link station. Amongst the wired link stations, we consider creating a random 3-regular graph superimposed upon the random wireless network to create model G 1 , and alternatively we consider a sparser mod...
International audienceWe study the connectivity properties of random Bluetooth graphs that model cer...
Consider a random geometric graph defined on n vertices uniformly distributedin the d-dimensional un...
An achievable bit rate per source-destination pair in a wireless network of n randomly located nodes...
Part 6: Network ScienceInternational audienceWe theoretically and experimentally analyze the process...
We propose very simple randomized algorithms to compute sparse overlay networks for geometric random...
Wireless networks in which the node locations are random are best modelled as random geometric graph...
This thesis concerns mathematical models of wireless communication networks, in particular ad-hoc ne...
Abstract. In this paper we study connectivity in wireless ad-hoc networks by modeling the network as...
We propose very simple randomized algorithms to compute sparse overlay networks for geometric random...
This paper introduces a new model and methodological approach for dealing with the probabilistic nat...
The initialization problem, also known as naming, assigns one unique identifier (ranging from $1$ to...
We study the connectivity properties of random Bluetooth graphs that model certain “ad hoc ” wireles...
A network of nodes in which pairs communicate over a shared wireless medium is analyzed. We consider...
We study the maximum flow possible between a single-source and multiple terminals in a weighted rand...
We study fundamental problems for static and mobile networks. First, we consider the random geometri...
International audienceWe study the connectivity properties of random Bluetooth graphs that model cer...
Consider a random geometric graph defined on n vertices uniformly distributedin the d-dimensional un...
An achievable bit rate per source-destination pair in a wireless network of n randomly located nodes...
Part 6: Network ScienceInternational audienceWe theoretically and experimentally analyze the process...
We propose very simple randomized algorithms to compute sparse overlay networks for geometric random...
Wireless networks in which the node locations are random are best modelled as random geometric graph...
This thesis concerns mathematical models of wireless communication networks, in particular ad-hoc ne...
Abstract. In this paper we study connectivity in wireless ad-hoc networks by modeling the network as...
We propose very simple randomized algorithms to compute sparse overlay networks for geometric random...
This paper introduces a new model and methodological approach for dealing with the probabilistic nat...
The initialization problem, also known as naming, assigns one unique identifier (ranging from $1$ to...
We study the connectivity properties of random Bluetooth graphs that model certain “ad hoc ” wireles...
A network of nodes in which pairs communicate over a shared wireless medium is analyzed. We consider...
We study the maximum flow possible between a single-source and multiple terminals in a weighted rand...
We study fundamental problems for static and mobile networks. First, we consider the random geometri...
International audienceWe study the connectivity properties of random Bluetooth graphs that model cer...
Consider a random geometric graph defined on n vertices uniformly distributedin the d-dimensional un...
An achievable bit rate per source-destination pair in a wireless network of n randomly located nodes...