Title :
On the Deterministic Code Capacity Region of an Arbitrarily Varying Multiple-Access Channel Under List Decoding
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Illinois at Urbana-Champaign, Urbana, IL, USA
Abstract :
We study the capacity region CL of an arbitrarily varying multiple-access channel (AVMAC) for deterministic codes with decoding into a list of a fixed size L and for the average error probability criterion. Motivated by known results in the study of fixed size list decoding for a point-to-point arbitrarily varying channel, we define for every AVMAC whose capacity region for random codes has a nonempty interior, a nonnegative integer Ω called its symmetrizability. It is shown that for every L ≤ Ω, CL has an empty interior, and for every L ≥ (Ω+1)2, CL equals the nondegenerate capacity region of the AVMAC for random codes with a known single-letter characterization. For a binary AVMAC with a nondegenerate random code capacity region, it is shown that the symmetrizability is always finite.
Keywords :
channel capacity; channel coding; decoding; error statistics; random codes; AVMAC; arbitrarily varying multiple-access channel; average error probability criterion; decoding; deterministic code capacity region; deterministic codes; nondegenerate random code capacity region; nonnegative integer; point-to-point arbitrarily varying channel; single-letter characterization; symmetrizability; Capacity planning; Decoding; Error probability; Joints; Probability distribution; Tin; Zinc; Arbitrarily varying channel (AVC); capacity region; deterministic code; list decoding; multiple-access channel; random code; symmetrizability;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2013.2242514
