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http://dx.doi.org/10.9709/JKSS.2012.21.2.051

Throughput Analysis of Non-Transparent Mode in IEEE 802.16j Mobile Multi-Hop Relay Networks  

Lee, Ju-Ho (강원대학교 컴퓨터정보통신공학과)
Lee, Goo-Yeon (강원대학교 컴퓨터학부)
Jeong, Choong-Kyo (강원대학교 컴퓨터학부)
Publication Information
Journal of the Korea Society for Simulation / v.21, no.2, 2012 , pp. 51-58 More about this Journal
Abstract
In IEEE 802.16j MMR protocol, two modes about usage of RS are proposed; one is transparent mode to enhance data throughput and the other is non-transparent mode to extend coverage. In this paper, we focus on non-transparent mode and find that the mode can also improve data throughput. Therefore, we analyze data throughput on various RS topology and their extended coverage area by simulation in IEEE 802.16j non-transparent mode. We also compare the simulation results with the single MR-BS system of which coverage is extended by higher transmission power. From the comparisons of simulation results, we see that higher throughput can be obtained in the proposed non-transparent mode.
Keywords
IEEE 802.16j; MMR; Non-transparent; Coverage extension; Throughput improvement;
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  • Reference
1 IEEE 802.16j MMR Work group, http://www.ieee802.org/16/relay
2 Genc V., Murphy S., Murphy J. "Performance analysis of transparent relays in 802.16j MMR networks", Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks and Workshops, 2008. WiOPT 2008.
3 Kyungmi Park, Hyun S. Ryu, Chung G. Kang, Daeyoung Chang, Seungho Song, Jongguk Ahn, and Jongtae Ihm "The Performance of Relay-Enhanced Cellular OFDMATDD Network for Mobile Broadband Wireless Services", EURASIP Journal on Wireless Communications and Networking Volume 2009.
4 Christian Hoymann. "Analysis and performance evaluation of the OFDM-based metropolitan area network IEEE 802.16", Computer Networks: The International Journal of Computer and Telecommunications Networking. Volume 49 Issue 3, 19 October 2005.
5 류현석, 이준석, 이용환, 강충구. "셀룰러 광대역 이동 서비 스를 위한 릴레이 시스템 기술", SK Telecommunications Review, Vol. 20, No. 3, pp. 445-471. June 2010.
6 L. Erwu, W. Dongyao, L. Jimin, S. Gang, and J. Shan", Performance valuation of Bandwidth Allocation in 802.16j Mobile Multi-hop Relay Networks", VTC2007- Spring, Dublin.
7 Shiang-Jiun Lin, Wern Ho Sheen, I-Kang Fu, and Chia-chi Huang, "Resource scheduling with directional antennas for multi-hop relay networks in Manhattan-like environment", Mobile WiMAX Symposium, 2007.
8 D.B. da Costa and S. Sonia Aïssa, "End-to-End Performance of Dual-Hop Semi-Blind Relaying Systems with Partial Relay Selection", IEEE Transactions on Wireless Communications. Vol. 8, No. 8, Aug. 2009, pp. 4306-4315.   DOI
9 A. Bletsas, A. Khisti, D. P. Reed, and A. Lippman, "A simple cooperative diversity method based on network path selection", IEEE J. Select. Areas Commun., Vol. 24, Mar. 2006, pp.659-672.   DOI   ScienceOn
10 H. Min, S. Lee, K. Kwak, and D. Hong, "Effect of Multiple Antennas at Source on Outage Probability for Amply-and-Forward Relaying Systems", IEEE Trans. Wireless Commun., Vol. 8, No. 2, Feb. 2009, pp. 633-37.   DOI   ScienceOn
11 S. Berger, M. Kuhn, A. Wittneben, T. Unger, and A. Klein, "Recent Advances in Amplify-and-Forward Two-Hop Relaying", IEEE Commun. Mag., Vol. 47, No. 7, Jul. 2009, pp. 50-56.
12 TTAS.Ko-06.0064/R1, Specification for 2.3 GHz Band Portable Internet Service (WiBro)-Physical Layer, Telecommunications.