Allerton 2015 Paper Abstract


Paper ThC3.4

cao, fengming (toshiba research europe), Ganesh, Ayalvadi (University of Bristol), Armour, Simon (University of Bristol), Sooriyabandara, Mahesh (Toshiba Research Europe Limited)

On the Distribution and Mean of Received Power in Stochastic Cellular Network

Scheduled for presentation during the Regular Session "Wireless Communication Systems II" (ThC3), Thursday, October 1, 2015, 14:30−14:50, Butternut

53rd Annual Allerton Conference on Communication, Control, and Computing, Sept 29-Oct 2, 2015, Allerton Park and Retreat Center, Monticello, IL, USA

This information is tentative and subject to change. Compiled on December 5, 2021

Keywords Wireless Communication Systems, Wireless Communications at Large, Performance Analysis


This paper exploits the distribution and mean of received power for cellular network with stochastic network modeling to study the difference between the two cell association criteria, i.e. the strongest received power based cell association and the closest distance based cell association. Consequently we derive the analytical expression of the distribution and the mean of the nth strongest received power and the received power from the nth nearest base station and the derivations have been confirmed by simulation results. From both the simulation results and analytical results, we can see that the distributions of received power with both association criteria vary with different path loss exponents : there is a clear gap between the two when the exponent is small and the two are almost the same with larger exponent. Meanwhile, the analysis on the mean of the received power suggests that under a certain converged condition,i.e. n > =2 , the average of the received power from the nth closest BS is actually larger than the nth strongest one.



All Content © PaperCept, Inc..

This site is protected by copyright and trademark laws under US and International law.
All rights reserved. © 2002-2021 PaperCept, Inc.
Page generated 2021-12-05  09:59:18 PST  Terms of use