We consider a power control scheme for maximizing the information capacity of the uplink in single-cell multiuser communications with frequency-flat fading, under the assumption that the users attenuations are measured perfectly. Its main characteristics are that only one user transmits over the entire bandwidth at any particular time instant and that the users are allocated more power when their channels are good, and less when they are bad. Moreover, these features are independent of the statistics of the fading. Numerical results are presented for the case of single-path Rayleigh fading. We show that an increase in capacity over a perfectly-power controlled (Gaussian) channel can be achieved, especially if the number of users is large. By examining the bit error-rate with antipodal signalling, we show the inherent diversity in multiuser communications over fading channels.
[1]
Thomas M. Cover,et al.
Elements of Information Theory
,
2005
.
[2]
Shlomo Shamai,et al.
Information theoretic considerations for cellular mobile radio
,
1994
.
[3]
P. Whiting,et al.
Information-theoretic capacity of multi-receiver networks
,
1993,
Telecommun. Syst..
[4]
R. Gallager.
Information Theory and Reliable Communication
,
1968
.
[5]
Aaron D. Wyner,et al.
Shannon-theoretic approach to a Gaussian cellular multiple-access channel
,
1994,
IEEE Trans. Inf. Theory.
[6]
W. C. Y. Lee,et al.
Estimate of channel capacity in Rayleigh fading environment
,
1990
.