Title :
Increasing the storage density for a 4th-Generation Optical Disc
Author :
Hepper, Dietmar ; Chen, Xiao-Ming ; Knappmann, Stephan ; Pilard, Gaël ; Richter, Hartmut ; Theis, Oliver ; Wuttig, Matthias
Author_Institution :
IPI, RWTH Aachen, Aachen
Abstract :
While CD, DVD and Blu-ray disc (BD) are on the market, attempts are being made by industry and research facilities to further increase the storage density for the next or 4th generation of optical storage. The objective is an increase by a factor of 3...4 compared to BD. The European funded project MobileDrive/4GOOD (4th-Generation, omni-purpose optical disc-system) chose the super-resolution near-field structure (SuperRENS) technology as the basis to decrease the minimum mark length as well as the track pitch on the disc. The contribution emphasises the steps taken in disc development and signal processing, and the results achieved so far. Disc development covers the layer stack of the disc and materials for the layers, especially comparison of different materials for the SuperRENS layer. Signal processing methods include clock recovery, bit detection, demodulation and inner and outer forward error correction.
Keywords :
optical disc storage; optical information processing; 4th-generation optical disc storage; Blu-ray disc; CD; DVD; bit detection; clock recovery; forward error correction; omnipurpose optical disc-system; signal processing; storage density; super-resolution near-field structure technology; Apertures; Forward error correction; Optical diffraction; Optical materials; Optical recording; Optical signal processing; Semiconductor materials; Signal processing; Structural discs; Target tracking; LDPC; Optical storage; RLL; SuperRENS; mask layer; optical disc; turbo product code;
Conference_Titel :
Consumer Electronics, 2009. ICCE '09. Digest of Technical Papers International Conference on
Conference_Location :
Las Vegas, NV
Print_ISBN :
978-1-4244-4701-5
Electronic_ISBN :
978-1-4244-2559-4
DOI :
10.1109/ICCE.2009.5012337
