Title :
Improvements in detectors based upon colored noise
Author :
Altekar, Shirish A. ; Wolf, Jack K.
Author_Institution :
Center for Magnetic Recording Res., California Univ., San Diego, La Jolla, CA, USA
fDate :
1/1/1998 12:00:00 AM
Abstract :
Two techniques which improve the performance of partial response maximum likelihood systems (PRML) without increasing the number of states in the Viterbi algorithm (VA) are studied. Both techniques rely on the fact that the noise samples going into the VA are correlated. One technique, known as partial local feedback noise prediction, uses estimates of the past noise samples taken from the path memory of the VA to form a prediction of the current noise sample. The predicted noise is subtracted from the current equalizer output prior to updating the path metrics. In the other technique, the VA operates in a block mode simultaneously on X consecutive equaliser outputs. A branch metric appropriate for colored noise is used within each block of K samples. Simulation results for a Lorentzian channel equalized to a PR4 target show that block processing with 4 samples gives almost the same error probability as noise prediction using a 2-tap predictor. Results also show that the feedback in the noise prediction technique increases the length of error events
Keywords :
Viterbi detection; feedback; magnetic recording noise; maximum likelihood detection; partial response channels; prediction theory; Lorentzian channel; PR4 target; Viterbi algorithm; block mode; branch metric; colored noise; current equalizer; detector; error probability; partial local feedback noise prediction; partial response maximum likelihood system; path memory; path metric; simulation; Colored noise; Detectors; Equalizers; Feedback; Intersymbol interference; Magnetic noise; Magnetic recording; Maximum likelihood detection; Maximum likelihood estimation; Viterbi algorithm;
Journal_Title :
Magnetics, IEEE Transactions on
