博碩士論文 93523027 詳細資訊


姓名 郭高翔(Kao-Hsiang Kuo)  查詢紙本館藏   畢業系所 通訊工程學系
論文名稱 用於多重收發天線系統之ARQ架構的設計
(Some designs of ARQ schemes for MIMO Systems)
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摘要(中) 本論文探討在多重收發天線系統中的自動要求重傳機制(automatic repeat request, ARQ),考慮結合貝爾實驗室層次空時(Bell Labs layered space-time, BLAST)架構和空時區塊碼(space-time block codes, STBC)架構之自動要求重傳機制。我們提出一種較低複雜度架構,藉由Chase 演算法得到幾個測試樣式(test pattern),以達到部分錯誤更正,使得資料速率提高。在相近或較高的未偵測錯誤率和傳統自動要求重傳比較,我們所提出的架構之資料速率(throughput)提升,只付出解碼複雜度些微地增加。
摘要(英) In this thesis, we discuss the automatic repeat request (ARQ) technique that combine the Bell Labs layered space time (BLAST) and the space time block codes (STBC) in the MIMO communication system. We also propose a low complexity scheme that gets several test patterns by the Chase algorithm to improve the throughput and corrects partial errors. Compared with the traditional ARQ scheme which has similar or higher undetected error rate, the throughput of our proposed system is increased with the price of slightly increased decoding complexity.
關鍵字(中) ★ 貝爾實驗室層次空時
★ 空時區塊碼
★ 自動要求重傳
★ 測試樣式資料速率
關鍵字(英) ★ automatic repeat request
★ Bell Labs layered space time
★ space time block codes
★ test pattern
★ throughput
論文目次 第一章 緒論
1.1自動要求重傳的概念 1
1.2空時碼之系統模型 4
1.3研究動機 5
第二章 各類空時碼之回顧
2.1層次空時碼 6
2.1.1系統模型 7
2.1.2兩種類型層次空時碼 9
2.2空時區塊碼 15
2.3 Chase演算法 19
第三章 利用結合QPSK和BPSK傳送在多重收發
天線之ARQ架構
3.1系統性質 26
3.2效能分析 33
3.3結合之前接收訊號的自動要求重傳機制 39
第四章 用於多重收發天線之混合型自動要求
重傳機制
4.1 Chase演算法之測試樣式 43
4.2資料速率和未偵測錯誤率的模擬結果 47
第五章 結論 55
參考文獻 57
中英對照表 59
參考文獻 [1]S. Lin and D. J. Costello Jr., Error Control Coding: Fundamentals and
Applications, NJ: Prentice-Hall, 1983
[2]G. J. Foschini, “Layered space-time architecture for wireless
communication in a fading environment when using multi-element antennas,”
Bell Labs Technical Journal, Autumn 1996.
[3]G. D. Golden, G. J. Foschini, R. A. Valenzuela and P. W. Wolniansky,
“Detection algorithm and initial laboratory results using the V-BLAST space-
time communication architecture,” Electronics lett. vol. 35, pp.384-393,
Jan. 1999.
[4]D. Shiu and J. Kahn, “Layered space-time codes for wireless communication
using multiple transmit antennas,” in Proc. IEEE International Conference
on Communication (ICC), Vancouver, B.C. Jun. 1999.
[5]K. L. Lo, S. Marinkovic, Z. Chen, and B. Vucetic, “Performance comparison
of layered space time codes,” in Proc. IEEE International Conference on
Communication (ICC), pp. 1382-1387, May. 2002.
[6]S. M. Alamouti, “A simple transmitter diversity scheme for wireless
communications,” IEEE J. Select. Areas Commun., vol. 19, pp. 1451-1458,
Oct. 1999.
[7]V. Tarokh, H. Jafarkhani and and A. R. Calderbank,“Space-time block codes
from orthogonal designs,” IEEE Trans. Inform. Theory, vol. 45, pp. 1456-
1467, July. 1999.
[8]D. Chase, “A class of algorithms for decoding block codes with channel
measurement information,” IEEE Trans. Inform. Theory, vol. IT-18, pp. 170-
182, Jan. 1972.
[9]S. K. Lee, M. C. Lin, “An ARQ Scheme Using Combined QPSK and BPSK
Transmissions,” IEEE Trans. Commun., vol. 43, no 5, pp. 1917-1925. May.
1995.
[10]W. C. Chu, “ARQ Schemes for MIMO Systems,” M.S. thesis, National Taiwan
University, Taipei, Taiwan, 2004
[11]Y. L. Chiu, “Study of ARQ Schemes for Space-Time Coding System,” M.S.
thesis, National Taiwan University, Taipei, Taiwan, 2003
指導教授 魏瑞益(Ruey-Yi Wei) 審核日期 2006-7-18
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