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研究生:何宗曄
研究生(外文):He, Tsung-Yeh
論文名稱:用於毫米波系統之頻域通道估測器與等化器解碼結合器之研究
論文名稱(外文):The Study of the Channel Estimator and Aliasing Canceller for Equalizing and Decoding Single-Carrier Block Transmission for Millimeter-wave system
指導教授:許騰尹
指導教授(外文):Hsu, Terng-Yin
學位類別:碩士
校院名稱:國立交通大學
系所名稱:資訊科學與工程研究所
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2010
畢業學年度:99
語文別:英文
論文頁數:27
中文關鍵詞:頻域等化器通道估測
外文關鍵詞:SC-FDEGolay sequencechannel estimationequalization
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A method against multipath effect is developed in the thesis. The method combines equalization and block demapping based on the maximum likelihood (ML) criterion in frequency domain with only one FFT. This technique is applied to IEEE802.15.3c Single-Carrier common mode scheme (CMS) which is used for all modes for enabling interoperability among different PHY operations. For OFDM mode, this means that CMS can share FFT and point by point multiplier of OFDM mode to reach resources saving.
A method against multipath effect is developed in the thesis. The method combines equalization and block demapping based on the maximum likelihood (ML) criterion in frequency domain with only one FFT. This technique is applied to IEEE802.15.3c Single-Carrier common mode scheme (CMS) which is used for all modes for enabling interoperability among different PHY operations. For OFDM mode, this means that CMS can share FFT and point by point multiplier of OFDM mode to reach resources saving.
Abstract……………………………………………………………………………..…i
誌謝………..………………………………………………………………………..…ii
Table of Contents……………………………………………………………………iii
List of Figures…………………………………………………………….………….iv
List of Tables…………………………………………………………………………v
Chapter 1 Introduction………………………………………………………………1
Chapter 2 System Model & Background………………………………………….2
2.1 IEEE802.15.3c CMS transmitter……..……………………………..…2
2.2 Single Carrier Frequency Domain Equalizer….….………………….4
2.3 Channel Estimation…………………….…………..………..………….7
2.3.1 Frequency domain channel estimation………..……………...8
2.3.2 Time domain channel estimation……………………………...9
Chapter 3 Channel Estimation& Equalization…….……………………………..12
3.1 Frequency Domain Golay Sequences Channel Estimation……..12
3.2. Single FFT Feedback Aliasing Cancelling FDE…..……………..…15
Chapter 4 Simulation Result & Performance……………………………20
Chapter 5 Conclusion & Future Work……………………………………23
Bibliography………………………………………………………………………25
[1] Chueh-An Tsai;”Combination with Frequency Domain Equalization and Data Demappin”, NCTU , 2005.
[2] Shau-Yu Cheng; Chueh-An Tsai; Terng-Yin Hsu;”Channel Estimator and Aliasing Canceller for Equalizing and Decoding Non-Cyclic Prefixed Single-Carrier Block Transmission via MIMO-OFDM Modem”
[3] A. Bourdoux; J. Nsenga; W. V. Thillo; F. Horlin; V. D. Perre;”Air Interface and Physical Layer techniques for 60GHz WPANs”; Communications and Vehicular Technology Symposium; pp.4; Nov. 2006.
[4] B. Sklar; Digital Communications: Fundamental and Applications; 2nd edition; Prentice Hall; pp.249; 2001.
[5] Shuzo Kato; Hiroshi Harada; Ryuhei Funada; Tuncer Baykas; Chin Sean Sum; Junyi Wang; M Azizur Rahman; “Single Carrier Transmission for Multi-Gigabit 60-GHz WPAN Systems”, IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL.27, NO.8, OCTOBER 2009
[6] IEEE 802.15 WPAN Task Group 3c (TG3c) Millimeter Wave Alternative PHY Standard
[7] Ambuj Parihar; Lutz Lampe; Robert Schober; Cyril Leung;” Equalization for DS-UWB Systems”, IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 55, NO. 6, JUNE 2007
[8] Umair bin Waheed, Waqas Abdullah, Shakir Ahmed Siddiqui, Muhammad Daud Khan,Adeel Razi;” Comparison of Time Domain and Frequency Domain Equalizers for Indoor UWB Systems”, IEEE REGION 8 SIBIRCON 2008.
[9] Simone Morosi, Tiziano Bianchi,” Frequency Domain Detectors for Ultra-Wideband Communications in Short-Range Systems” IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 56, NO. 2, FEBRUARY 2008.
[10] M. Golay, “Complementary series,” IEEE Trans. Inform. Theory, vol.7, no.2, pp.82–87, Apr. 1961.
[11] S. Z. Budisin, “New complementary pairs of sequences,” IEE Electronics Lett., vol.26, no.13, pp.881–883, June 1990.
[12] S. Z. Budisin, “Efficient pulse compressor for Golay complementarysequences,” IEE Electronics Lett., vol. 27, no. 3, pp.219–220, Jan.1991.
[13] S. Budisin, “Golay complementary sequences are superior to PN sequences,” in Proc. IEEE International Conference on Systems Engineering 1992, pp.101–104, Sept. 1992.
[14] M. Lei and Y. Huang, “Time-domain channel estimation of high accuracy for LDPC coded SC-FDE system using fixed point decoding in 60-GHz WPAN,” in Proc. IEEE CCNC 2009, Jan. 2009.
[15] M. Lei and Y. Huang, “CFR and SNR Estimation Based on Complementary Golay Sequences for Single-Carrier Block Transmission in 60-GHz WPAN,” in IEEE WCNC 2009, Apr. 2009.
[16] Katsuyoshi Sato, Hirokazu Sawada, Yozo Shoji, Shuzo Kato , “CHANNEL MODEL FOR MILLIMETER WAVE WPAN”, The 18th Annual IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC'07)
[17] 15-06-0468-00-003c-modified-matlab-simulation-program-tsv-channel-model
[18] IEEE P802.15 Wireless Personal Area Networks, Characterization and modeling of the 60 GHz indoor channel in the office and residential environments, 2006
[19] IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs), CM MATLAB Release 1.1 Support Document, Jan, 2007.
[20] IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs), A new LOS kiosk channel model based on TSV model, March, 2007.
[21] IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs), TG3c Channel Modeling Sub-committee Final Report, 13 March, 2007

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