Title :
Cooperative Multiple-Access Encoding With States Available at One Transmitter
Author :
Somekh-Baruch, Anelia ; Shamai, S. ; Verdu, S.
Author_Institution :
Dept. of Electr. Eng., Princeton Univ., Princeton, NJ
Abstract :
We generalize the Gel´fand-Pinsker model to encompass the setup of a memoryless multiple-access channel (MAC). According to this setup, only one of the encoders knows the state of the channel (noncausally), which is also unknown to the receiver. Two independent messages are transmitted: a common message and a message transmitted by the informed encoder. We find explicit characterizations of the capacity region with both noncausal and causal state information. Further, we study the noise-free binary case, and we also apply the general formula to the Gaussian case with noncausal channel state information, under an individual power constraint as well as a sum power constraint. In this case, the capacity region is achievable by a generalized writing-on-dirty-paper scheme.
Keywords :
Gaussian processes; channel capacity; channel coding; multi-access systems; radio transmitters; wireless channels; Gaussian case; Gel´fand-Pinsker model; channel capacity; channel state information; cooperative multiple-access encoding; memoryless multiple-access channel; noise-free binary case; writing-on-dirty-paper scheme; Broadcasting; Channel capacity; Channel state information; Degradation; Encoding; Gaussian noise; Interference cancellation; MIMO; Relays; Transmitters; Binning; Gel´fand–Pinsker channel; causal side information; channel capacity; channel coding; cooperation; decoding; dirty-paper channel; multiuser channels; noncausal side information;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2008.928977
