Performance of a Multicast Error Control Protocol Based on a Product Code Structure--Part <cd02d35.gif>: On Random Error Channels--

Katsumi SAKAKIBARA; Masao KASAHARA

Performance of a Multicast Error Control Protocol Based on a Product Code Structure--Part : On Random Error Channels--

Katsumi SAKAKIBARA, Masao KASAHARA

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A multicast error control protocol proposed by Metzner is generalized and the performance of the proposed protocol on random error channels (binary symmetric channels) is analyzed. The proposed protocol adopts an encoding procedure based on a product code structure, whith enables each destined user terminal to decode the received frames with the Reddy-Robinson algorithm. As a result, the performance degradation due to the re-broadcasting of the replicas of the previously transmitted frames can be circumvented. The numerical results for the analysis and the simulation indicate that the proposed protocol yields higher throughput and less degradation of throughput with an increase of the number of destined terminals.

Publication: IEICE TRANSACTIONS on Fundamentals Vol.E75-A No.12 pp.1674-1683

Publication Date: 1992/12/25

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Type of Manuscript: Special Section PAPER (Special Section on Networks and Mobile Communications)

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Katsumi SAKAKIBARA, Masao KASAHARA, "Performance of a Multicast Error Control Protocol Based on a Product Code Structure--Part : On Random Error Channels--" in IEICE TRANSACTIONS on Fundamentals, vol. E75-A, no. 12, pp. 1674-1683, December 1992, doi: .
Abstract: A multicast error control protocol proposed by Metzner is generalized and the performance of the proposed protocol on random error channels (binary symmetric channels) is analyzed. The proposed protocol adopts an encoding procedure based on a product code structure, whith enables each destined user terminal to decode the received frames with the Reddy-Robinson algorithm. As a result, the performance degradation due to the re-broadcasting of the replicas of the previously transmitted frames can be circumvented. The numerical results for the analysis and the simulation indicate that the proposed protocol yields higher throughput and less degradation of throughput with an increase of the number of destined terminals.
URL: https://global.ieice.org/en_transactions/fundamentals/10.1587/e75-a_12_1674/_p

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@ARTICLE{e75-a_12_1674,
author={Katsumi SAKAKIBARA, Masao KASAHARA, },
journal={IEICE TRANSACTIONS on Fundamentals},
title={Performance of a Multicast Error Control Protocol Based on a Product Code Structure--Part : On Random Error Channels--},
year={1992},
volume={E75-A},
number={12},
pages={1674-1683},
abstract={A multicast error control protocol proposed by Metzner is generalized and the performance of the proposed protocol on random error channels (binary symmetric channels) is analyzed. The proposed protocol adopts an encoding procedure based on a product code structure, whith enables each destined user terminal to decode the received frames with the Reddy-Robinson algorithm. As a result, the performance degradation due to the re-broadcasting of the replicas of the previously transmitted frames can be circumvented. The numerical results for the analysis and the simulation indicate that the proposed protocol yields higher throughput and less degradation of throughput with an increase of the number of destined terminals.},
keywords={},
doi={},
ISSN={},
month={December},}

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TY - JOUR
TI - Performance of a Multicast Error Control Protocol Based on a Product Code Structure--Part : On Random Error Channels--
T2 - IEICE TRANSACTIONS on Fundamentals
SP - 1674
EP - 1683
AU - Katsumi SAKAKIBARA
AU - Masao KASAHARA
PY - 1992
DO -
JO - IEICE TRANSACTIONS on Fundamentals
SN -
VL - E75-A
IS - 12
JA - IEICE TRANSACTIONS on Fundamentals
Y1 - December 1992
AB - A multicast error control protocol proposed by Metzner is generalized and the performance of the proposed protocol on random error channels (binary symmetric channels) is analyzed. The proposed protocol adopts an encoding procedure based on a product code structure, whith enables each destined user terminal to decode the received frames with the Reddy-Robinson algorithm. As a result, the performance degradation due to the re-broadcasting of the replicas of the previously transmitted frames can be circumvented. The numerical results for the analysis and the simulation indicate that the proposed protocol yields higher throughput and less degradation of throughput with an increase of the number of destined terminals.
ER -