Title :
Capacity and mutual information of wideband multipath fading channels
Author :
Telatar, I. Emre ; Tse, David N C
Author_Institution :
Lucent Technol. Bell Labs., Murray Hill, NJ, USA
fDate :
7/1/2000 12:00:00 AM
Abstract :
We investigate the capacity and mutual information of a broadband fading channel consisting of a finite number of time-varying paths. We show that the capacity of the channel in the wideband limit is the same as that of a wideband Gaussian channel with the same average received power. However, the input signals needed to achieve the capacity must be “peaky” in time or frequency. In particular, we show that if white-like signals are used instead (as is common in spread-spectrum systems), the mutual information is inversely proportional to the number of resolvable paths L˜ with energy spread out, and in fact approaches 0 as the number of paths gets large. This is true even when the paths are assumed to be tracked perfectly at the receiver. A critical parameter L˜crit is defined in terms of system parameters to delineate the threshold on L over which such overspreading phenomenon occurs
Keywords :
Gaussian channels; broadband networks; channel capacity; code division multiple access; fading channels; land mobile radio; multipath channels; multiuser channels; radio networks; spread spectrum communication; time-varying channels; average received power; broadband fading channel; channel capacity; diversity reception; input signals; mobile radio; mutual information; overspreading phenomenon; receiver; spread-spectrum systems; system parameters; time-varying paths; white-like signals; wideband CDMA; wideband Gaussian channel; wideband multipath fading channels; wireless communication; Bandwidth; Delay; Energy resolution; Fading; Gaussian channels; Gaussian noise; Multiaccess communication; Mutual information; Signal resolution; Wideband;
Journal_Title :
Information Theory, IEEE Transactions on
