Current and Future Schemes for Securing Data Reliability in HDD
スポンサーリンク
概要
- 論文の詳細を見る
This paper describes Read/Write channel signal processing and error correcting codes which possibly provides a solution to the current issues of magnetic recording channels. Particularly, we propose a short term serial turbo code using a convolutional code for random error correction of EEPR4 magnetic recording channels. We also compare performance of efficient error-correcting codes over arithmetic finite fields, Hermitian code with that of the conventional Reed-Solomon codes for a long sector size of 4096 bytes.
- 社団法人電子情報通信学会の論文
- 2003-07-04
著者
-
Matsui Hajime
Toyota Technological Inst. Nagoya Jpn
-
Matsui Hajime
Toyota Technological Institute
-
Mita Seiichi
Toyota Technological Inst. Nagoya‐shi Jpn
関連論文
- Modified EEPRML with 16/17 (3;11) MTR Code and Cyclic Redundancy Check Code for High Density Magnetic Recording Channels (Special Issue on Information Storage Technologies for the 21st Century)
- On the Smallest-Scale Decoder for Codes on Algebraic Curves
- Determination of Unknown Syndromes in Parallel Decoding of Codes from Algebraic Curves with Systolic Array
- Current and Future Schemes for Securing Data Reliability in HDD
- Read-head Conditions for Obtaining Areal Recording Density of 5.8 Tbit/in.2 on a Bit-Patterned Medium
- Dynamic and Safe Path Planning Based on Support Vector Machine among Multi Moving Obstacles for Autonomous Vehicles
- A Practical and Optimal Path Planning for Autonomous Parking Using Fast Marching Algorithm and Support Vector Machine
- Dynamic and Safe Path Planning Based on Support Vector Machine among Multi Moving Obstacles for Autonomous Vehicles