Arbitrarily varying channels with constrained inputs and states

Author

Csiszár, Imre ; Narayan, Prakash

Author_Institution

Math. Inst., Hungarian Acad. of Sci., Budapest, Hungary

Volume

34

Issue

1

fYear

1988

fDate

1/1/1988 12:00:00 AM

Firstpage

27

Lastpage

34

Abstract

Random coding theorems are proved for discrete memoryless arbitrarily varying channels (AVCs) with constraints on the transmitted codewords and channel state sequences. Two types of constraints are considered: peak (i.e. required for each n-length sequence almost surely) and average (over the message set or over an ensemble). For peak constraints on the codewords and on the channel state sequences, the AVC is shown to have a (strong) random coding capacity. If the codewords and/or the channel state sequences are constrained in the average sense, the AVCs do not possess (strong) capacities; only ε-capacities are shown to exist

Keywords

encoding; telecommunication channels; arbitrarily varying channels; average constraints; channel state sequences; codewords; constrained inputs; discrete memoryless channels; peak constraints; random coding theorems; Aerospace engineering; Automatic voltage control; Capacity planning; Codes; Communication channels; Constraint theory; Decoding; Information theory; Stochastic processes; Transmitters;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/18.2598

Filename

2598