Capacity bounds for noncoherent fading channels with a peak constraint

A discrete-time single-user channel with temporally correlated Rayleigh fading is considered. Neither the transmitter nor the receiver has channel side information (CSI), and both peak and average power constraints are placed on the inputs. Two lower bounds to the capacity are presented. One is motivated by the technique of decision feedback decoding. The other is related to the information rate with side information present, minus a penalty term to account for the information about the channel that is learned at the receiver. The second lower bound is a slight variation of a bound of Shamai and Marzetta. The bounds are compared numerically to two upper bounds for a channel with Gauss Markov Rayleigh fading. One upper bound is the capacity for complete CSI, with the peak constraint ignored, and the other is based on the capacity per unit energy. In general, the gap between the upper and lower bounds depends on the channel memory, but is quite small for low SNR