Markov Processes Asymptotically Achieve the Capacity of Finite-State Intersymbol Interference Channels

Author

Chen, Jiangxin ; Siegel, Paul H.

Author_Institution

Prediction Co., UBS, Santa Fe, NM

Volume

54

Issue

3

fYear

2008

fDate

3/1/2008 12:00:00 AM

Firstpage

1295

Lastpage

1303

Abstract

Recent progress in capacity evaluation has made it possible to compute a sequence of lower bounds on the capacity of a finite-state intersymbol-interference (ISI) channel by finding a sequence of optimized Markov input processes with increasing order , for which the state of the process is the previous input symbols. In this correspondence, we prove that, as the order goes to infinity, the sequence of optimized Markov sources asymptotically achieves the capacity of the channel. The conclusion is extended to two-dimensional finite-state ISI channels, the binary symmetric channel (BSC) with constrained inputs, and general indecomposable finite-state channels with a mild constraint.

Keywords

Markov processes; channel capacity; intersymbol interference; ISI channels; Markov process; binary symmetric channel; channel capacity; finite-state intersymbol interference; Cryptography; Electrons; Intersymbol interference; Markov processes; Silicon compounds; Capacity; Markov processes; finite-state channels; intersymbol interference (ISI) channels; run-length limited constraints; two- dimensional channels;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/TIT.2007.915709

Filename

4455735