Title :
Optimal combination of detection and error correction coding for magnetic recording
Author :
Saeki, Koshiro ; Keirn, Zak
Author_Institution :
Texas Instruments, Shinjuku, Japan
fDate :
3/1/2001 12:00:00 AM
Abstract :
This paper presents models and techniques for fairly comparing detection systems for magnetic recording and for choosing the optimal tradeoff between Error Correction Control (ECC) overhead and detection performance. Models are presented for soft bit error rate (SBER), Hard Bit Error Rate (HBER), and optimization for both standard and modified concatenated coding schemes. The effect of error propagation of the RLL code is taken into account providing a more realistic method for comparing overall system performance of different combinations of detector, RLL code, and ECC
Keywords :
concatenated codes; error correction codes; error statistics; magnetic recording; runlength codes; signal detection; RLL code; detection system; error correction coding; hard bit error rate; magnetic recording; modified concatenated coding; optimization model; soft bit error rate; standard concatenated coding; Bit error rate; Concatenated codes; Detectors; Error analysis; Error correction codes; Instruments; Magnetic recording; Memory; Modulation coding; System performance;
Journal_Title :
Magnetics, IEEE Transactions on
