Constrained Parity-Check Code and Post-Processor for Advanced Blue Laser Disc Systems
スポンサーリンク
概要
- 論文の詳細を見る
We propose an advanced detection approach based on capacity-approaching constrained parity-check codes and multiple-error-event correction post-processing for high-density blue laser disc systems. Simulation results for an idealized blue laser disc system show that at high recording density, a performance improvement of 1.7 dB is achieved over the standard 17PP code without parity.
- 2006-02-15
著者
-
Shi L.
Data Storage Institute
-
IMMINK Kees
Turing Machines Inc
-
Shi L.
Data Storage Institute, DSI Building, 5 Engineering Drive 1, 117608 Singapore
-
Bergmans Jan
Technical University of Eindhoven, 5600 MB Eindhoven, The Netherlands
-
Cai Kui
Data Storage Institute, DSI Building, 5 Engineering Drive 1, 117608 Singapore
関連論文
- Study of the Dynamic Crystallization Behavior of GeSbTe Phase Change Optical Disk
- Rewritable Dual-Layer Initialization-Free Phase-Change Optical Disk
- Optical Transition of Chalcogenide Phase-Change Thin Films
- Multispeed Superlattice-Like Phase Change Optical Disk
- Temperature Dependence of Phase Change Random Access Memory Cell
- Enhanced Scattering of Random-Distribution Nanoparticles and Evanescent Field in Super-Resolution Near-Field Structure
- Initialization-Free Blue-Laser Optical Disc
- Substrate Deformation Studies on Direct Overwriting of Phase-Change Rewritable Optical Disc with Germanium Nitride Interface Layers
- New Improvement Methods for Multispeed Initialization-Free Phase-Change Optical Disk
- Integrated Thermal and Optical Analyses of Phase-Change Optical Disk
- Properties and Reactive Sputtering Parameters of GeN Film for High-Density Phase-Change Optical Disk
- New Approach to Initialization-Free Phase-Change Optical Disk
- Fractal-Based Studies on Irregular Marks of High-Density Phase-Change Optical Media
- Superlattice-Like Structure for High Recording Speed Phase Change Optical Discs
- New Additional Layer to Realize Initialization-Free Function for Digital Versatile Disk-Random Access Memory Disk
- Study of the Partial Crystallization Properties of Phase-Change Optical Recording Disks
- Dependence of Optical Constants on Film Thickness of Phase-Change Media
- Simulation and Characteristics of Phase Change Optical Disk
- Thermal Deformation Analysis of High-Density Optical Disks
- Dual-Speed Inorganic Write-Once Disk with Low-to-High Polarity
- Nonchalcogenide Inorganic Blue Laser Recordable Medium
- Construction of Efficient Dc-Free Runlength-Limited Codes for Optical Recording
- Constrained Parity-Check Code and Post-Processor for Advanced Blue Laser Disc Systems
- Initialization-Free Multispeed Blue Laser Optical Disc
- Error Correction Code Failure Rate Analysis for Parity-Check-Coded Optical Recording Systems
- Investigation on Mechanism of Aperture-Type Super-Resolution Near-Field Optical Disk
- Initialization-Free Blue-Laser Optical Disc
- Integrated Thermal and Optical Analyses of Phase-Change Optical Disk
- Near-Field Characteristics and Signal Enhancement of Super-Resolution Near-Field Structure Disk with Metal Nanoparticles
- Substrate Deformation Studies on Direct Overwriting of Phase-Change Rewritable Optical Disc with Germanium Nitride Interface Layers
- Enhanced Scattering of Random-Distribution Nanoparticles and Evanescent Field in Super-Resolution Near-Field Structure
- Local Thermal Expansion in Super-Resolution Near-Field Structure
- Multispeed Superlattice-Like Phase Change Optical Disk
- Temperature Dependence of Phase-Change Random Access Memory Cell
- New Improvement Methods for Multispeed Initialization-Free Phase-Change Optical Disk
- Rewritable Dual-Layer Initialization-Free Phase-Change Optical Disk
- Study of the Dynamic Crystallization Behavior of GeSbTe Phase Change Optical Disk