Title :
Cell group decoupling analysis of a dynamic channel assignment strategy in linear microcellular radio systems
Author :
Yeung, Kwan L. ; Yum, T.-S.P.
Author_Institution :
Dept. of Inf. Eng., Chinese Univ. of Hong Kong, Shatin, Hong Kong
Abstract :
We develop a simple but very accurate analytical model for a channel borrowing based dynamic channel assignment strategy in linear microcellular systems. Our approach is to decouple a particular cell together with its neighbors, i.e., those cells under its interference range, from the rest of the system for finding the blocking probability of that cell. We call this the cell group decoupling analysis. This analysis is applicable to both homogeneous and heterogeneous traffic distributions. We show that the effect of this decoupling causes the blocking probability so obtained to be an upper bound. The bound is found to be very tight when compared with simulation results. Besides, this analysis gives accurate results to boundary cells as well as inner cells, and is therefore quite different from the other approaches which neglect boundary effects.<>
Keywords :
cellular radio; frequency allocation; land mobile radio; probability; radio spectrum management; statistical analysis; telecommunication channels; telecommunication traffic; analytical model; blocking probability; boundary cells; boundary effects; cell group decoupling analysis; channel borrowing; dynamic channel assignment; heterogeneous traffic distribution; homogeneous traffic distribution; inner cells; interference range; linear microcellular radio systems; simulation results; upper bound; Analytical models; Interference; Traffic control; Upper bound;
Journal_Title :
Communications, IEEE Transactions on
