TY - GEN
T1 - On the deterministic-code capacity of the two-user discrete memoryless arbitrarily varying general broadcast channel
AU - Hof, Eran
AU - Bross, Shraga I.
N1 - Place of conference:USA
PY - 2005
Y1 - 2005
N2 - An inner bound on the deterministic-code capacity region of the two-user discrete memoryless arbitrarily varying general broadcast channel (AVGBC) was characterized by Jahn, assuming that the common message capacity is nonzero; however, he did not indicate how one could decide whether the latter capacity is positive. Csiszaacuter and Narayan's result for the single-user arbitrarily varying channel (AVC) establishes the missing part in Jahn's characterization. Nevertheless, being based on Ahlswede's elimination technique, Jahn's characterization is not applicable for symmetrizable channels under state constraint. Here, the various notions of symmetrizability for the two-user broadcast AVC are defined. Sufficient non-symmetrizability condition that renders the common message capacity of the AVGBC positive is identified using an approach different from Jahn's. The decoding rules we use establish an achievable region under state and input constraints for the family of degraded message sets codes over the AVGBC
AB - An inner bound on the deterministic-code capacity region of the two-user discrete memoryless arbitrarily varying general broadcast channel (AVGBC) was characterized by Jahn, assuming that the common message capacity is nonzero; however, he did not indicate how one could decide whether the latter capacity is positive. Csiszaacuter and Narayan's result for the single-user arbitrarily varying channel (AVC) establishes the missing part in Jahn's characterization. Nevertheless, being based on Ahlswede's elimination technique, Jahn's characterization is not applicable for symmetrizable channels under state constraint. Here, the various notions of symmetrizability for the two-user broadcast AVC are defined. Sufficient non-symmetrizability condition that renders the common message capacity of the AVGBC positive is identified using an approach different from Jahn's. The decoding rules we use establish an achievable region under state and input constraints for the family of degraded message sets codes over the AVGBC
UR - https://scholar.google.co.il/scholar?q=On+the+deterministic-code+capacity+of+the+two-user+discrete+memoryless+arbitrarily+varying+general+broadcast+channel&btnG=&hl=en&as_sdt=0%2C5
M3 - Conference contribution
BT - CISS
ER -