A New Run-length-limited (2,7) Parity Preserving Code Limiting the Repeated Minimum Transition Run for Optical Storage Systems
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, a new run-length-limited (RLL) (2,7) parity preserving (PP) repeated minimum transition run (RMTR) 4 code is proposed. The proposed code shows better performance in terms of density ratio, RMTR, DC component suppression, flexible adaptation for a partial response maximum likelihood (PRML) 1 system and bit error rate (BER) as compared with (2,10) code 2 (currently applied in storage systems) or (1,7) PP code 3 (highly recommended for next-generation optical recording systems). On the basis of the results of experiments on optical storage systems, the superiority of the proposed code is established.
- 2004-07-15
著者
-
Lee Jaejin
Department Of Electronic Engineering Dongguk University
-
Lee Jaejin
Department of Electronic Engineering, Dongguk University, 26 Pil-dong 3-ga Chung-ku Seoul, 100-715, Korea
-
Hong Hyunsun
Department of Electronic Engineering, Dongguk University, 26 Pil-dong 3-ga Chung-ku Seoul, 100-715, Korea
関連論文
- Byte Merging Inter-Row Interleaving Scheme for the Error Control of High-Density Digital Verstile Disk
- Adaptive Equalization Using Expanded Maximum-Likelihood Detector Output for Optical Recording Systems
- A New Run-length-limited (2,7) Parity Preserving Code Limiting the Repeated Minimum Transition Run for Optical Storage Systems
- Modified Partial Response Maximum Likelihood Detection Using the Relative Probability of the 17PP Code for Optical Storage Systems
- Performance of Run-Length-Limited (3, 11) Code for Optical Storage
- Optimal Number of Control Bits in the Guided Scrambling Method for Holographic Data Storage
- A New 9-Level Run-Length-Limited (1, 3) Code for Multilevel Optical Recording Channels
- A New Error Correction Algorithm for High-Density Optical Storage Systems