Arbitrarily varying multiple-access channels. I. Ericson´s symmetrizability is adequate, Gubner´s conjecture is true

Author

Ahlswede, Rudolf ; Cai, Ning

Author_Institution

Fakultat fur Math., Bielefeld Univ., Germany

fYear

1997

fDate

29 Jun-4 Jul 1997

Firstpage

22

Abstract

Ericson´s conjecture has been established by Csiszar and Narayan (1988). In the theory of identification the cycle closes: both, the non-single letter separability by random words and symmetrizability are used and needed. Gubner extends the decoding rule of Csiszar and Narayan to the multiple-access situation by following “conditional decoding”. This is a suboptimal decoding rule, but was suited for the discovery of the capacity theorem for the multiple-access channel (MAC). Its drawback for systems of channels was soon realized by Ahlswede (1974), where for the derivation of the capacity theorem for the compound MAC maximum likelihood decoding could be analysed. For the arbitrarily varying MAC (AVMAC) suboptimality of the conditional decoding rule becomes even more significant. The authors examine if Gubner´s conjecture is true

Keywords

channel capacity; decoding; identification; multi-access systems; telecommunication channels; Ericson´s symmetrizability; Gubner´s conjecture; MAC; arbitrarily varying multiple-access channels; capacity theorem; conditional decoding; cycle closes; decoding rule; identification; maximum likelihood decoding; nonsingle letter separability; random words; suboptimal decoding rule; symmetrizability; Automatic voltage control; Helium; Maximum likelihood decoding; Mutual information; Stochastic processes; Sufficient conditions;

fLanguage

English

Publisher

ieee

Conference_Titel

Information Theory. 1997. Proceedings., 1997 IEEE International Symposium on

Conference_Location

Ulm

Print_ISBN

0-7803-3956-8

Type

conf

DOI

10.1109/ISIT.1997.612937

Filename

612937