In this paper the problem of evaluating the statistics of the connected nodes position in a multi-hop wireless random ad hoc network is addressed. In particular, an analytical model and closed-form expressions for the distribution of the connected nodes position distribution and the probability of coverage, given a maximum number of tolerable hops, are derived. The presence of randomness in the propagation, such as shadowing effects, is accounted for in a general way. The validity of the model is confirmed by simulation results. The impact of the channel randomness on the position distribution as well as on the coverage characteristics is investigated in the numerical results
This paper investigates the connectivity probability of 1-dimensional ad hoc networks in which nodes...
Random beamforming, where each node selects a main beam direction without any coordination with othe...
Considering a wireless multi-hop network where a total of n nodes are randomly, independently and un...
In this paper the problem of evaluating the statistics of the connected nodes position in a multi-h...
In this paper, we present an analytical procedure for the computation of the node isolation probabil...
In this paper, we present an analytical procedure for the computation of the node isolation probabil...
Abstract—This article is a contribution to mathematical mod-eling and better understanding of fundam...
Consider a wireless multihop network where nodes are randomly distributed in a given area following ...
Consider a wireless multihop network where nodes are randomly distributed in a given area following ...
Abstract — This paper has analyzed link probability, expected node degree, expected number of links,...
Abstract: The random waypoint model is a frequently used mobility model for simulation–based studies...
We study the connectivity properties of an ad hoc network consisting of a given number of nodes each...
Based on ideas and methods of ergodic theory this paper presents a new approach investigating mobile...
Abstract — We study the connectivity properties of an ad hoc network consisting of a given number of...
AbstractThe number of hops between the source and destination nodes is a key parameter in studying m...
This paper investigates the connectivity probability of 1-dimensional ad hoc networks in which nodes...
Random beamforming, where each node selects a main beam direction without any coordination with othe...
Considering a wireless multi-hop network where a total of n nodes are randomly, independently and un...
In this paper the problem of evaluating the statistics of the connected nodes position in a multi-h...
In this paper, we present an analytical procedure for the computation of the node isolation probabil...
In this paper, we present an analytical procedure for the computation of the node isolation probabil...
Abstract—This article is a contribution to mathematical mod-eling and better understanding of fundam...
Consider a wireless multihop network where nodes are randomly distributed in a given area following ...
Consider a wireless multihop network where nodes are randomly distributed in a given area following ...
Abstract — This paper has analyzed link probability, expected node degree, expected number of links,...
Abstract: The random waypoint model is a frequently used mobility model for simulation–based studies...
We study the connectivity properties of an ad hoc network consisting of a given number of nodes each...
Based on ideas and methods of ergodic theory this paper presents a new approach investigating mobile...
Abstract — We study the connectivity properties of an ad hoc network consisting of a given number of...
AbstractThe number of hops between the source and destination nodes is a key parameter in studying m...
This paper investigates the connectivity probability of 1-dimensional ad hoc networks in which nodes...
Random beamforming, where each node selects a main beam direction without any coordination with othe...
Considering a wireless multi-hop network where a total of n nodes are randomly, independently and un...