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Construction of partial unit memory encoders for application in capacity-approaching concatenated codes

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Construction of partial unit memory encoders for application in capacity-approaching concatenated codes. / Fagoonee, Lina; Honary, Bahram.
In: IEE Proceedings - Communications, Vol. 152, No. 5, 12.2005, p. 1108-1116.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Fagoonee, L & Honary, B 2005, 'Construction of partial unit memory encoders for application in capacity-approaching concatenated codes', IEE Proceedings - Communications, vol. 152, no. 5, pp. 1108-1116. https://doi.org/10.1049/ip-com:20050201

APA

Fagoonee, L., & Honary, B. (2005). Construction of partial unit memory encoders for application in capacity-approaching concatenated codes. IEE Proceedings - Communications, 152(5), 1108-1116. https://doi.org/10.1049/ip-com:20050201

Vancouver

Fagoonee L, Honary B. Construction of partial unit memory encoders for application in capacity-approaching concatenated codes. IEE Proceedings - Communications. 2005 Dec;152(5):1108-1116. doi: 10.1049/ip-com:20050201

Author

Fagoonee, Lina ; Honary, Bahram. / Construction of partial unit memory encoders for application in capacity-approaching concatenated codes. In: IEE Proceedings - Communications. 2005 ; Vol. 152, No. 5. pp. 1108-1116.

Bibtex

@article{ced82121a0314526bbcc6bfabe524107,
title = "Construction of partial unit memory encoders for application in capacity-approaching concatenated codes",
abstract = "In order to achieve capacity approaching performance, the use of partial unit memory (PUM) component codes with good distance properties in turbo codes and woven turbo codes have been suggested. PUM codes are no more complex, but perhaps less well known than traditionally used convolutional component codes. Turbo codes and woven turbo codes based on PUM codes have been shown to outperform those based on convolutional codes with no extra decoding complexity. In this paper, the convolutional properties of PUM codes are exploited and how these can be used to construct encoder structures and their trellises is described so that they are suitable for use in the aforementioned parallel concatenated structures. The encoder and trellis construction techniques are illustrated by two example PUM codes. The performance of these codes as component codes in a turbo structure is presented to show the influence of the parameters of the PUM code and how this impacts on the design of suitable component codes in a concatenated structure with capacity approaching performance.",
author = "Lina Fagoonee and Bahram Honary",
year = "2005",
month = dec,
doi = "10.1049/ip-com:20050201",
language = "English",
volume = "152",
pages = "1108--1116",
journal = "IEE Proceedings - Communications",
issn = "1350-2425",
publisher = "Institute of Electrical Engineers",
number = "5",

}

RIS

TY - JOUR

T1 - Construction of partial unit memory encoders for application in capacity-approaching concatenated codes

AU - Fagoonee, Lina

AU - Honary, Bahram

PY - 2005/12

Y1 - 2005/12

N2 - In order to achieve capacity approaching performance, the use of partial unit memory (PUM) component codes with good distance properties in turbo codes and woven turbo codes have been suggested. PUM codes are no more complex, but perhaps less well known than traditionally used convolutional component codes. Turbo codes and woven turbo codes based on PUM codes have been shown to outperform those based on convolutional codes with no extra decoding complexity. In this paper, the convolutional properties of PUM codes are exploited and how these can be used to construct encoder structures and their trellises is described so that they are suitable for use in the aforementioned parallel concatenated structures. The encoder and trellis construction techniques are illustrated by two example PUM codes. The performance of these codes as component codes in a turbo structure is presented to show the influence of the parameters of the PUM code and how this impacts on the design of suitable component codes in a concatenated structure with capacity approaching performance.

AB - In order to achieve capacity approaching performance, the use of partial unit memory (PUM) component codes with good distance properties in turbo codes and woven turbo codes have been suggested. PUM codes are no more complex, but perhaps less well known than traditionally used convolutional component codes. Turbo codes and woven turbo codes based on PUM codes have been shown to outperform those based on convolutional codes with no extra decoding complexity. In this paper, the convolutional properties of PUM codes are exploited and how these can be used to construct encoder structures and their trellises is described so that they are suitable for use in the aforementioned parallel concatenated structures. The encoder and trellis construction techniques are illustrated by two example PUM codes. The performance of these codes as component codes in a turbo structure is presented to show the influence of the parameters of the PUM code and how this impacts on the design of suitable component codes in a concatenated structure with capacity approaching performance.

U2 - 10.1049/ip-com:20050201

DO - 10.1049/ip-com:20050201

M3 - Journal article

VL - 152

SP - 1108

EP - 1116

JO - IEE Proceedings - Communications

JF - IEE Proceedings - Communications

SN - 1350-2425

IS - 5

ER -