Coverage analysis of finite cellular networks: A stochastic geometry approach
Paper in proceeding, 2018
This paper develops a tractable modeling and analysis framework for finite cellular wireless networks using stochastic geometry. Defining finite homogeneous Poisson point processes to model the number and locations of access points in a confined region, we study the coverage probability for an arbitrarily-located reference user that is served by the closest access point. The distance distribution and the Laplace transform (LT) of the interference are derived. We also derive a closed-form lower bound on the LT of the interference. Our analyses reveal that a higher path loss exponent improves the coverage probability and that there is a location where the coverage probability is maximized.
Author
Seyed Mohammad Azimi-Abarghouyi
Sharif University of Technology
Behrooz Makki
Chalmers, Electrical Engineering, Communication, Antennas and Optical Networks
Martin Haenggi
University of Notre Dame
Masoumeh Nasiri-Kenari
Sharif University of Technology
Tommy Svensson
Chalmers, Electrical Engineering, Communication, Antennas and Optical Networks
Published in
IWCIT 2018 - Iran Workshop on Communication and Information Theory
p. 1-5
978-153864149-1 (ISBN)
Conference
2018 Iran Workshop on Communication and Information Theory, IWCIT 2018
Tehran, Iran, 2018-04-24 - 2018-04-25
Tehran, Iran, 2018-04-24 - 2018-04-25
Categorizing
Subject Categories (SSIF 2011)
Other Computer and Information Science
Telecommunications
Communication Systems
Identifiers
DOI
10.1109/IWCIT.2018.8405041