Author :
Durisi, Giuseppe ; Bölcskei, Helmut ; Shamai, Shlomo
Abstract :
We characterize the infinite bandwidth capacity behavior of the general class of underspread wide-sense stationary uncorrelated scattering (WSSUS) time-frequency selective Rayleigh fading channels. In particular, we propose a signaling scheme, termed time-frequency pulse position modulation (TF-PPM), which is shown to achieve AWGN channel capacity in the infinite bandwidth limit. As a trivial consequence of this result, the infinite bandwidth capacity of WSSUS underspread fading channels, irrespectively of the scattering function, equals the AWGN channel´s infinite bandwidth capacity. The wideband slope achieved by TF-PPM is found to be zero, irrespectively of the channel´s scattering function, even in the presence of perfect receive channel state information. Our proof techniques use the fact that underspread fading channels have a highly structured set of eigenfunctions and a property of orthogonal signaling schemes first presented in Butman and Klass, Jet Propulsion Lab.., Tech. Rep., 1973
Keywords :
AWGN channels; Rayleigh channels; bandwidth allocation; channel capacity; eigenvalues and eigenfunctions; pulse position modulation; telecommunication signalling; AWGN channel capacity; channel capacity; channel state information; eigenfunctions; infinite bandwidth capacity; signaling scheme; time-frequency pulse position modulation; time-frequency selective Rayleigh fading channels; underspread WSSUS fading channels; wide-sense stationary uncorrelated scattering; wideband regime; AWGN channels; Bandwidth; Channel capacity; Channel state information; Eigenvalues and eigenfunctions; Fading; Pulse modulation; Rayleigh scattering; Time frequency analysis; Wideband;
