The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Le turbocodage est largement connu comme l'une des techniques de codage efficaces pour le contrôle des erreurs dans divers systèmes de communication numérique depuis que cette méthode de codage a été proposée par C. Berrou, etc en 1993. Dans l'enregistrement magnétique numérique, il a été clair que la capacité de correction d'erreurs du turbocodage est bien entendu supérieure à la plupart des codes d'enregistrement conventionnels. Mais les performances d’un système à réponse partielle à maximum de vraisemblance (PRML) combiné à tout code d’enregistrement sont dégradées par de nombreux facteurs ou effets indésirables. Pour améliorer les performances du système PRML dans un enregistrement à haute densité surfacique, il est utile d'adopter un système PRML d'ordre supérieur ou un code à débit élevé dans un cas général. Dans cet article, le code turbo à taux 32/34 combiné à une réponse partielle améliorée de classe 4 étendue (E2PR4) est proposé. Nous appelons ce système à réponse partielle codée en treillis (TCPR) le taux 32/34 turbo-codé E.2PR4 (32/34 TC-E2PR4). On peut s’attendre à ce que le système TCPR proposé obtienne un gain de codage important et améliore les performances du système PRML. En conséquence, le système de codage proposé offre de bonnes performances par rapport aux systèmes conventionnels. En particulier, notre système peut atteindre un BER de 10-5 avec un SNR d'environ 1.5 dB inférieur à la course de transition maximale (MTR) conventionnelle 8/9 codée E2Système PR4ML à une densité linéaire normalisée de 3.
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Hidetoshi SAITO, Yoshihiro OKAMOTO, Hisashi OSAWA, "Error Rate Performance of Turbo Coding for E2PR4 Channel" in IEICE TRANSACTIONS on Electronics,
vol. E84-C, no. 11, pp. 1689-1696, November 2001, doi: .
Abstract: Turbo coding is widely known as one of effective error control coding techniques in various digital communication systems since this coding method has proposed by C. Berrou, etc in 1993. In digital magnetic recording, it has been cleared that the error correcting capability of turbo coding is superior to most of conventional recording codes as a matter of course. But, the performance of a partial response maximum-likelihood (PRML) system combined with any recording code is degraded by many undesirable factors or effects. To improve the performance of the PRML system in high areal density recording, it is useful to adopt a higher order PRML system or high rate code in a general case. In this paper, the rate 32/34 turbo code combined with an enhanced extended class-4 partial response (E2PR4) is proposed. We call this trellis coded partial response (TCPR) system the rate 32/34 turbo-coded E2PR4 (32/34 TC-E2PR4). Our proposed TCPR system can be expected to get large coding gain and improve the performance of PRML system. As a result, the proposed coding system provides a good performance compared with the conventional systems. In especial, our system can achieve a BER of 10-5 with SNR of approximately 1.5 dB less than the conventional 8/9 maximum transition run (MTR) coded E2PR4ML system at a normalized linear density of 3.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e84-c_11_1689/_p
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@ARTICLE{e84-c_11_1689,
author={Hidetoshi SAITO, Yoshihiro OKAMOTO, Hisashi OSAWA, },
journal={IEICE TRANSACTIONS on Electronics},
title={Error Rate Performance of Turbo Coding for E2PR4 Channel},
year={2001},
volume={E84-C},
number={11},
pages={1689-1696},
abstract={Turbo coding is widely known as one of effective error control coding techniques in various digital communication systems since this coding method has proposed by C. Berrou, etc in 1993. In digital magnetic recording, it has been cleared that the error correcting capability of turbo coding is superior to most of conventional recording codes as a matter of course. But, the performance of a partial response maximum-likelihood (PRML) system combined with any recording code is degraded by many undesirable factors or effects. To improve the performance of the PRML system in high areal density recording, it is useful to adopt a higher order PRML system or high rate code in a general case. In this paper, the rate 32/34 turbo code combined with an enhanced extended class-4 partial response (E2PR4) is proposed. We call this trellis coded partial response (TCPR) system the rate 32/34 turbo-coded E2PR4 (32/34 TC-E2PR4). Our proposed TCPR system can be expected to get large coding gain and improve the performance of PRML system. As a result, the proposed coding system provides a good performance compared with the conventional systems. In especial, our system can achieve a BER of 10-5 with SNR of approximately 1.5 dB less than the conventional 8/9 maximum transition run (MTR) coded E2PR4ML system at a normalized linear density of 3.},
keywords={},
doi={},
ISSN={},
month={November},}
Copier
TY - JOUR
TI - Error Rate Performance of Turbo Coding for E2PR4 Channel
T2 - IEICE TRANSACTIONS on Electronics
SP - 1689
EP - 1696
AU - Hidetoshi SAITO
AU - Yoshihiro OKAMOTO
AU - Hisashi OSAWA
PY - 2001
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E84-C
IS - 11
JA - IEICE TRANSACTIONS on Electronics
Y1 - November 2001
AB - Turbo coding is widely known as one of effective error control coding techniques in various digital communication systems since this coding method has proposed by C. Berrou, etc in 1993. In digital magnetic recording, it has been cleared that the error correcting capability of turbo coding is superior to most of conventional recording codes as a matter of course. But, the performance of a partial response maximum-likelihood (PRML) system combined with any recording code is degraded by many undesirable factors or effects. To improve the performance of the PRML system in high areal density recording, it is useful to adopt a higher order PRML system or high rate code in a general case. In this paper, the rate 32/34 turbo code combined with an enhanced extended class-4 partial response (E2PR4) is proposed. We call this trellis coded partial response (TCPR) system the rate 32/34 turbo-coded E2PR4 (32/34 TC-E2PR4). Our proposed TCPR system can be expected to get large coding gain and improve the performance of PRML system. As a result, the proposed coding system provides a good performance compared with the conventional systems. In especial, our system can achieve a BER of 10-5 with SNR of approximately 1.5 dB less than the conventional 8/9 maximum transition run (MTR) coded E2PR4ML system at a normalized linear density of 3.
ER -