Title :
Even mark modulation for optical recording
Author :
Karabed, Razmik ; Siegel, Paul H.
Author_Institution :
IBM Almaden Res. Center, San Jose, CA, USA
Abstract :
A novel modulation coding technique, even mark modulation (EMM), is proposed and shown to improve the performance of input-restricted partial-response class I and II optical recording channels. The coding technique produces a spectral null in the code power spectrum which coincides with the zero in the partial-response channel transfer functions at one-half the symbol frequency. This matched spectral null property of the code signals provides coding gains of 3 dB and 4 dB, respectively, compared to the uncoded input-restricted channels. Viterbi detection algorithms are derived which realize the theoretical gains with reduced complexity trellis structures. A rate 2/3 sliding block code satisfying the EMM constraints is described, and bit-by-bit simulation results confirm the predicted gains
Keywords :
encoding; optical storage; 3 dB; 4 dB; Viterbi detection algorithms; code power spectrum; coding gains; even mark modulation; input-restricted channels; modulation coding technique; optical recording; partial-response channel transfer functions; reduced complexity trellis structures; sliding block code; spectral null; Block codes; Detection algorithms; Frequency; Gain; Modulation coding; Optical modulation; Optical recording; Predictive models; Transfer functions; Viterbi algorithm;
Conference_Titel :
Communications, 1989. ICC '89, BOSTONICC/89. Conference record. 'World Prosperity Through Communications', IEEE International Conference on
Conference_Location :
Boston, MA
DOI :
10.1109/ICC.1989.49952
