Performance evaluation of a reliable broadcast scheme for satellite communications

Jianhua He; K. R. Subramanian; Liren Zhang; Donghua Dong

doi:10.1109/ICON.2000.875822

Performance evaluation of a reliable broadcast scheme for satellite communications

Jianhua He, K. R. Subramanian, Liren Zhang, Donghua Dong

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In this paper we present an analytical method called steady state function method (SSFM) to evaluate the performance of a full memory multidestination selective repeat (MSR) ARQ scheme. For a wide range of system parameters, SSFM provides a throughput closer to the simulation results. SSFM is also extended in a direct way to analyze the performance of a hybrid MSR ARQ scheme in which forward error correction (FEC) is employed in the MSR ARQ scheme. Analytical results shows that the hybrid MSR ARQ scheme largely outperforms the pure MSR ARQ scheme when the packet error ratio is high.

Original language	English
Title of host publication	Proceedings - IEEE International Conference on Networks 2000
Subtitle of host publication	Networking Trends and Challenges in the New Millennium, ICON 2000
Pages	406-410
Number of pages	5
DOIs	https://doi.org/10.1109/ICON.2000.875822
Publication status	Published - Dec 1 2000
Event	2000 IEEE International Conference on Networks: Networking Trends and Challenges in the New Millennium, ICON 2000 - Singapore, Singapore Duration: Sept 5 2000 → Sept 8 2000

Publication series

Name	IEEE International Conference on Networks, ICON
ISSN (Print)	1556-6463

Other

Other	2000 IEEE International Conference on Networks: Networking Trends and Challenges in the New Millennium, ICON 2000
Country/Territory	Singapore
City	Singapore
Period	9/5/00 → 9/8/00

Keywords

automatic request repeat
forward error correction
satellite broadcast

ASJC Scopus subject areas

Computer Networks and Communications
Software
Electrical and Electronic Engineering
Safety, Risk, Reliability and Quality

Access to Document

10.1109/ICON.2000.875822

Cite this

He, J., Subramanian, K. R., Zhang, L., & Dong, D. (2000). Performance evaluation of a reliable broadcast scheme for satellite communications. In Proceedings - IEEE International Conference on Networks 2000: Networking Trends and Challenges in the New Millennium, ICON 2000 (pp. 406-410). [875822] (IEEE International Conference on Networks, ICON). https://doi.org/10.1109/ICON.2000.875822

Performance evaluation of a reliable broadcast scheme for satellite communications. / He, Jianhua; Subramanian, K. R.; Zhang, Liren et al.
Proceedings - IEEE International Conference on Networks 2000: Networking Trends and Challenges in the New Millennium, ICON 2000. 2000. p. 406-410 875822 (IEEE International Conference on Networks, ICON).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

He, J, Subramanian, KR, Zhang, L & Dong, D 2000, Performance evaluation of a reliable broadcast scheme for satellite communications. in Proceedings - IEEE International Conference on Networks 2000: Networking Trends and Challenges in the New Millennium, ICON 2000., 875822, IEEE International Conference on Networks, ICON, pp. 406-410, 2000 IEEE International Conference on Networks: Networking Trends and Challenges in the New Millennium, ICON 2000, Singapore, Singapore, 9/5/00. https://doi.org/10.1109/ICON.2000.875822

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abstract = "In this paper we present an analytical method called steady state function method (SSFM) to evaluate the performance of a full memory multidestination selective repeat (MSR) ARQ scheme. For a wide range of system parameters, SSFM provides a throughput closer to the simulation results. SSFM is also extended in a direct way to analyze the performance of a hybrid MSR ARQ scheme in which forward error correction (FEC) is employed in the MSR ARQ scheme. Analytical results shows that the hybrid MSR ARQ scheme largely outperforms the pure MSR ARQ scheme when the packet error ratio is high.",

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N2 - In this paper we present an analytical method called steady state function method (SSFM) to evaluate the performance of a full memory multidestination selective repeat (MSR) ARQ scheme. For a wide range of system parameters, SSFM provides a throughput closer to the simulation results. SSFM is also extended in a direct way to analyze the performance of a hybrid MSR ARQ scheme in which forward error correction (FEC) is employed in the MSR ARQ scheme. Analytical results shows that the hybrid MSR ARQ scheme largely outperforms the pure MSR ARQ scheme when the packet error ratio is high.

AB - In this paper we present an analytical method called steady state function method (SSFM) to evaluate the performance of a full memory multidestination selective repeat (MSR) ARQ scheme. For a wide range of system parameters, SSFM provides a throughput closer to the simulation results. SSFM is also extended in a direct way to analyze the performance of a hybrid MSR ARQ scheme in which forward error correction (FEC) is employed in the MSR ARQ scheme. Analytical results shows that the hybrid MSR ARQ scheme largely outperforms the pure MSR ARQ scheme when the packet error ratio is high.

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Performance evaluation of a reliable broadcast scheme for satellite communications

Abstract

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Keywords

ASJC Scopus subject areas

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