Title :
Maximum transition run codes for generalized partial response channels
Author :
Cideciyan, Roy D. ; Eleftheriou, Evangelos ; Marcus, Brian H. ; Modha, Dharmendra S.
Author_Institution :
IBM Res. Div., Zurich, Switzerland
fDate :
4/1/2001 12:00:00 AM
Abstract :
A new twins constraint for maximum transition run (MTR) codes is introduced to eliminate quasi-catastrophic error propagation in sequence detectors for generalized partial response channels with spectral nulls both at dc and at the Nyquist frequency. Two variants of the twins constraint that depend on whether the generalized partial response detector trellis is unconstrained or j-constrained are studied. Deterministic finite-state transition diagrams that present the twins constraint are specified, and the capacity of the new class of MTR constraints is computed. The connection between (G,I) constraints and MTR(j) constraints is clarified. Code design methodologies that are based on look-ahead coding in combination with violation detection/substitution as well as on state splitting are used to obtain several specific constructions of high-rate MTR codes
Keywords :
block codes; digital magnetic recording; modulation coding; partial response channels; runlength codes; MTR codes; MTR constraints; Nyquist frequency; RLL constrained codes; code design methodologies; deterministic finite-state transition diagrams; generalized partial response channels; high-rate codes; look-ahead coding; magnetic recording; maximum transition run codes; on state splitting; partial response detector trellis; quasi-catastrophic error propagation; sequence detectors; spectral nulls; twins constraint; violation detection/substitution; Degradation; Design methodology; Detectors; Frequency; Helium; Magnetic recording; Maximum likelihood decoding; Modulation coding; Partial response channels; Performance loss;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
