New developments of the signal waveform modulation optical disc

Hailong Liu; Jing Pei; Longfa Pan; Yi Ni

doi:10.1117/12.859116

3 June 2010 New developments of the signal waveform modulation optical disc

Hailong Liu, Jing Pei, Longfa Pan, Yi Ni

Proceedings Volume 7730, Optical Data Storage 2010; 77301R (2010) https://doi.org/10.1117/12.859116
Event: Optical Data Storage 2010, 2010, Boulder, Colorado, United States

Abstract

This paper presents the new development of the signal waveform modulation optical disc. The signal waveform modulation optical disc is realized through inserting a sub-pit/sub-land into an original land/pit. More storage states are realized with changing the size and position of the sub-pits/sub-lands, which influence the corresponding readout signal waveforms. Modulation code and its realization are key technologies for signal waveform modulation optical disc. In this study, we employ maximum run transition code and level modulation process as the modulation code of signal waveform modulation optical disc. A 5/6MTR (2, 10) code is designed as the first step of the proposed modulation code, and the level modulation process are used to avoid multilevel on shortest runs. The realization process of the proposed code is presented, and the maximum level numbers for different run-length marks are investigated with the calculated readout signals.

Citation Download Citation

Hailong Liu, Jing Pei, Longfa Pan, and Yi Ni "New developments of the signal waveform modulation optical disc", Proc. SPIE 7730, Optical Data Storage 2010, 77301R (3 June 2010); https://doi.org/10.1117/12.859116

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