In this paper, we study the stationary node distribution of a variation of the Random Waypoint mobility model, in which nodes move in a smooth way following one randomly chosen Manhattan path connecting two points. We provide analytical results for the spatial node stationary distribution of this model. As an application, we exploit this result to derive an upper bound on the transmission range of the nodes of a MANET, moving according to this model, that guarantees the connectivity of the communication graph with high probability
The random waypoint model (RWP) is one of the most widely used mobility models in performance analy...
Abstract: The random waypoint model is a frequently used mobility model for simulation–based studies...
Understanding mobility characteristics is important for the design and analysis of routing schemes f...
In this paper, we study the stationary node distribution of a variation of the Random Waypoint mobil...
In this paper, we study the spatial node stationary distribution of two variations of the Random Way...
In this paper, we study the spatial node stationary distribution of two variations of the Random Way...
In this paper, we study the spatial node stationary distribution of two variations of the Random Way...
We study the connectivity properties of an ad hoc network consisting of a given number of nodes each...
Abstract — We study the connectivity properties of an ad hoc network consisting of a given number of...
In the simulation of mobile ad-hoc networks (MANETs), the probability distribution governing the mov...
Abstract In this paper, we tackle the problem of designing a random mobility model generating a targ...
In this paper, we tackle the problem of designing a random mobility model generating a target node s...
The random waypoint model (RWP) is one of the most widely used mobility models in performance analys...
Abstract—In simulations of mobile ad hoc networks, the probability distribution governing the moveme...
In this paper we analyze the node spatial distribution generated by nodes moving according to the ra...
The random waypoint model (RWP) is one of the most widely used mobility models in performance analy...
Abstract: The random waypoint model is a frequently used mobility model for simulation–based studies...
Understanding mobility characteristics is important for the design and analysis of routing schemes f...
In this paper, we study the stationary node distribution of a variation of the Random Waypoint mobil...
In this paper, we study the spatial node stationary distribution of two variations of the Random Way...
In this paper, we study the spatial node stationary distribution of two variations of the Random Way...
In this paper, we study the spatial node stationary distribution of two variations of the Random Way...
We study the connectivity properties of an ad hoc network consisting of a given number of nodes each...
Abstract — We study the connectivity properties of an ad hoc network consisting of a given number of...
In the simulation of mobile ad-hoc networks (MANETs), the probability distribution governing the mov...
Abstract In this paper, we tackle the problem of designing a random mobility model generating a targ...
In this paper, we tackle the problem of designing a random mobility model generating a target node s...
The random waypoint model (RWP) is one of the most widely used mobility models in performance analys...
Abstract—In simulations of mobile ad hoc networks, the probability distribution governing the moveme...
In this paper we analyze the node spatial distribution generated by nodes moving according to the ra...
The random waypoint model (RWP) is one of the most widely used mobility models in performance analy...
Abstract: The random waypoint model is a frequently used mobility model for simulation–based studies...
Understanding mobility characteristics is important for the design and analysis of routing schemes f...