Precoding for the AWGN Channel with Discrete Interference

For a state-dependent DMC with input alphabet X and state alphabet S where the i.i.d. state sequence is known causally at the transmitter, it is shown that by using at most |X||S| - |S |+ 1 out of |X|^|S| input symbols of the Shannon´s associated channel, the capacity is achievable. As an example of state-dependent channels with side information at the transmitter, M-ary signal transmission over AWGN channel with additive Q-ary interference where the sequence of i.i.d. interference symbols is known causally at the transmitter is considered. For the special case where the Gaussian noise power is zero, a sufficient condition, which is independent of interference, is given for the capacity to be log₂ M bits per channel use. The problem of maximization of the transmission rate under the constraint that the channel input given any current interference symbol is uniformly distributed over the channel input alphabet is investigated. For this setting, the general structure of a communication system with optimal precoding is proposed.