This paper presents a computationally efficient analytical method for estimating the capacity of third generation cellular systems based on W-CDMA schemes. Closed form expressions are presented for average energy per bit to interference ratio (E/sub b//I/sub O/) and outage probability for typical interference scenarios. The average E/sub b//I/sub O/ and outage probability figures are used to determine the capacity of the system. The capacity of different modes of operation (e.g. voice, low rate data, high rate data) is considered. The results are compared with those available in the literature published by ETSI (see The ETS/spl middot/UMTS Terrestrial Radio Access (UTRA) ITU-R RTT Candidate Submission, SMG2, 1998). This paper concentrates on the analysis of the forward link, but this method can be easily extended to the reverse link. The capacity results calculated in this paper are lower than those presented in the ETSI publication. The difference can be attributed to the different assumptions used in this paper compared to the ETSI publication; power control and signal variability.
[1]
Kevin W. Sowerby,et al.
A statistical approach to the analysis of DS/CDMA cellular systems employing RAKE receivers and sectorized antennas
,
1999
.
[2]
Kevin W. Sowerby,et al.
Interference Modelling in DS/CDMA Cellular Systems Operating in a General Fading Environment
,
1997,
Wirel. Pers. Commun..
[3]
D.L. Schilling,et al.
Broadband CDMA for personal communications systems
,
1991,
IEEE Communications Magazine.
[4]
S. Seidel,et al.
900-MHz multipath propagation measurements for US digital cellular radiotelephone
,
1990
.
[5]
K. W. Sowerby.
Outage probability in mobile radio systems
,
1989
.
[6]
M. Pursley,et al.
Performance Evaluation for Phase-Coded Spread-Spectrum Multiple-Access Communication - Part I: System Analysis
,
1977,
IEEE Transactions on Communications.