Title :
Feedback Capacity of the Compound Channel
Author :
Shrader, Brooke ; Permuter, Haim
Author_Institution :
Lincoln Lab., Massachusetts Inst. of Technol. (MIT), Lexington, MA, USA
Abstract :
In this work, we find the capacity of a compound finite-state channel (FSC) with time-invariant deterministic feedback. We consider the use of fixed length block codes over the compound channel. Our achievability result includes a proof of the existence of a universal decoder for the family of FSCs with feedback. As a consequence of our capacity result, we show that feedback does not increase the capacity of the compound Gilbert-Elliot channel. Additionally, we show that for a stationary and uniformly ergodic Markovian channel, if the compound channel capacity is zero without feedback then it is zero with feedback. Finally, we use our result on the FSC to show that the feedback capacity of the memoryless compound channel is given by infthetas maxQX I(X; Y |thetas).
Keywords :
T invariance; block codes; channel capacity; channel coding; feedback; Gilbert-Elliot channel; compound channel feedback capacity; compound finite-state channel capacity; decoder; ergodic Markovian channel; fixed length block codes; time-invariant deterministic feedback; Block codes; Capacity planning; Channel capacity; Decoding; Feedback; Helium; MIMO; Memoryless systems; Power capacitors; Transmitters; Causal conditioning probability; Gilbert–Elliot channel; Pinsker´s inequality; Sanov´s theorem; code-trees; compound channel; directed information; feedback capacity; finite-state channel (FSC); types of code-trees; universal decoder;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2009.2023727
