Title :
A reduced-power channel reuse scheme for wireless packet cellular networks
Author :
Li, Junyi ; Shroff, Ness B. ; Chong, Edwin K P
Author_Institution :
Lucent Technol., AT&T Bell Labs., Holmdel, NJ, USA
fDate :
12/1/1999 12:00:00 AM
Abstract :
We present a novel reduced-power channel reuse scheme to improve the spectrum efficiency in wireless packet cellular networks. The basic idea is to reduce intercellular interference and improve the capture probability by an a priori assignment of power levels of channels used in different cells. We formulate and solve an optimal channel-selection problem for our scheme. We find that the optimal policy is in a form of bang-bang control. We illustrate our channel-selection solution by a case study with uniform fairness constraint. We evaluate, via numerical analysis and simulation, both throughput and delay of the new scheme, and compare them with other schemes. We find that our scheme can achieve significant performance improvements, in terms of both the maximum throughput and throughput-delay tradeoff, over a wide range of capture ratio values
Keywords :
bang-bang control; cellular radio; delays; frequency allocation; interference suppression; multi-access systems; multiuser channels; optimal control; packet radio networks; power control; probability; radiofrequency interference; telecommunication control; bang-bang control; capture division packet access; capture probability; capture ratio; intercellular interference reduction; maximum throughput; numerical analysis; numerical simulation; optimal channel-selection problem; performance; power control; power level assignment; reduced-power channel reuse; spectrum efficiency; throughput-delay tradeoff; uniform fairness constraint; wireless packet cellular networks; Analytical models; Frequency division multiaccess; GSM; Interference; Land mobile radio cellular systems; Multimedia systems; Numerical analysis; Numerical simulation; Optimal control; Throughput;
Journal_Title :
Networking, IEEE/ACM Transactions on
