Title :
Optimal Achievable Rates for Interference Networks With Random Codes
Author :
Bandemer, Bernd ; El Gamal, Abbas ; Young-Han Kim
Author_Institution :
Inf. Theor. & Applic. Center, Univ. of California at San Diego, La Jolla, CA, USA
Abstract :
The optimal rate region for interference networks is characterized when encoding is restricted to random code ensembles with superposition coding and time sharing. A simple simultaneous nonunique decoding rule, under which each receiver decodes for the intended message as well as the interfering messages, is shown to achieve this optimal rate region regardless of the relative strengths of signal, interference, and noise. This result implies that the Han-Kobayashi bound, the best known inner bound on the capacity region of the two-user pair interference channel, cannot be improved merely by using the optimal maximum likelihood decoder.
Keywords :
channel capacity; maximum likelihood decoding; radio networks; radiofrequency interference; random codes; Han-Kobayashi bound; interference networks; optimal achievable rates; optimal maximum likelihood decoder; optimal rate region; random code ensembles; simultaneous nonunique decoding rule; superposition coding; time sharing; two-user pair interference channel capacity region; Encoding; Interference channels; Joints; Maximum likelihood decoding; Receivers; Han–Kobayashi bound; Han-Kobayashi bound; interference network; maximum likelihood decoding; network information theory; random code ensemble; simultaneous decoding; superposition coding;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2015.2476792
