WIAS Preprint No. 2327, (2016)

Stronger wireless signals appear more Poisson



Authors

  • Keeler, Paul
    ORCID: 0000-0002-2063-1075
  • Ross, Nathan
  • Xia, Aihua
  • Błaszczyszyn, Bartek

2010 Mathematics Subject Classification

  • 60G55 60F99

Keywords

  • Poisson process, wireless networks, approximation bounds

DOI

10.20347/WIAS.PREPRINT.2327

Abstract

Keeler, Ross and Xia [1] recently derived approximation and convergence results, which imply that the point process formed from the signal strengths received by an observer in a wireless network under a general statistical propagation model can be modelled by an inhomogeneous Poisson point process on the positive real line. The basic requirement for the results to apply is that there must be a large number of transmitters with different locations and random propagation effects. The aim of this note is to apply some of the main results of [1] in a less general but more easily applicable form to illustrate how the results can be applied in practice. New results are derived that show that it is the strongest signals, after being weakened by random propagation effects, that behave like a Poisson process, which supports recent experimental work. [1] P. Keeler, N. Ross, and A. Xia:``When do wireless network signals appear Poisson?? ''

Appeared in

  • IEEE Wireless Comm. Letters, 5 (2016) pp. 572--575.

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