Closed-Form Path-Loss Predictor for Gaussianly Distributed Nodes

The emulation of wireless nodes spatial position is a practice used by deployment engineers and network planners to analyze the characteristics of a network. In particular, nodes geolocation will directly impact factors such as connectivity, signals fidelity, and service quality. In literature, in a...

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Bibliographic Details
Main Authors: Abdulla, M, Shayan, Y R
Format: Conference Proceeding
Language:English
Subjects:
Communications Society
Emulation
Gaussian distribution
Global Positioning System
Humans
Peer to peer computing
Scattering
Stochastic processes
Surface topography
Wireless sensor networks
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Summary:The emulation of wireless nodes spatial position is a practice used by deployment engineers and network planners to analyze the characteristics of a network. In particular, nodes geolocation will directly impact factors such as connectivity, signals fidelity, and service quality. In literature, in addition to typical homogenous scattering, normal distribution is frequently used to model mobiles concentration in a cellular system. Moreover, Gaussian dropping is often considered as an effective placement method for airborne sensor deployment. Despite the practicality of this model, getting the network channel loss distribution still relies on exhaustive Monte Carlo simulation. In this paper, we argue the need for this inefficient approach and hence derived a generic and exact closed-form expression for the path-loss distribution density between a base-station and a network of nodes. Simulation was used to reaffirm the validity of the theoretical analysis using values from the new IEEE 802.20 standard.
ISSN:1550-3607
1938-1883
DOI:10.1109/ICC.2010.5502200