國立成功大學電機工程學系 教師個人頁面
English Version
張名先 教授
地址
電機系館9樓92915室
Email
TEL
06-2757575 ext.62384
實驗室
通訊信號處理實驗室
(R92910/ext.62384)
學經歷
學歷
2002
國立交通大學電信工程博士
1997
國立交通大學電信工程碩士
1995
國立台灣大學電機工程學士
經歷
2017-present
國立成功大學電機系教授
2017-2020
國立成功大學電腦與通信工程研究所所長
2007-2017
國立成功大學電機系副教授
2002-2007
國立成功大學電機系助理教授
研究領域
  • 數位通訊 (Digital Communications)
  • 無線通訊 (Wireless Communications)
  • 信號處理 (Signal Processing) 本實驗室 (通訊信號處理研究室 92910,通訊系統研究室 92906) 主要研究方向為無線通訊系統之架構、傳輸與接收演算法、及相關之信號處理。 (歡迎碩博士生加入本實驗室研究團隊)
著作
期刊論文( Journal )
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  1. Ming-Xian Chang and Yu T. Su, “Model-Based channel estimation for equalizing OFDM signals,” in IEEE Trans. Commun., vol. 50, pp 540- 544, Apr. 2002.
  2. Ming-Xian Chang and Yu. T. Su, “Performance analysis of equalized OFDM systems in Rayleigh fading,” in IEEE Trans. Wireless Commun. vol. 1, pp 721- 732, Oct. 2002.
  3. Ming-Xian Chang and Yu T. Su, “Blind and semiblind detections of OFDM signals in fading channels,” in IEEE Trans. Commun., vol 52, pp. 744-754, May 2004.
  4. Ming-Xian. Chang,“A new derivation of least-squares-fitting principle for OFDM channel estimation,” in IEEE Trans. Wireless Commun., vol. 5, pp. 726-731, Apr. 2006.
  5. Ming-Xian Chang,“A novel algorithm of inter-subchannel interference self-cancellation for OFDM systems,” in IEEE Trans. Wireless Commun., vol. 6, pp. 2881-2893, Aug. 2007.
  6. Ming-Xian Chang and Tsung-Da Hsieh,“Detection of OFDM signals in fast-varying channels with low-density pilot symbols,” in IEEE Trans. Veh. Technol., vol. 57, pp. 859-872, Mar. 2008.
  7. Ming-Xian Chang, “Asynchronous CDMA under single-carrier block transmission – architectures and signal models,” in IEEE Trans. Veh. Technol. vol. 59, pp. . 980-986, Feb. 2010.
  8. Ming-Xian Chang, “Realizable Ideal D/C and C/D conversions for bandlimited periodic signals and Characteristics of Single-Carrier Block Transmission,”in IEEE Trans. Signal Process. Vol. 59, pp.1670-1682, Apr. 2011.
  9. Ming-Xian Chang and Ren-Shian Chen, “Efficient blind detection for OFDM systems in selective fading channels," IEEE Trans. Veh. Technol., vol. 64, pp. 1779-1792, May 2015
  10. Ming-Xian Chang,“Analytical comparison for channel response estimation based on time and frequency-domain pilot signals,”IEEE Trans. Veh. Technol., vol. 64, pp. 4303-4310, Sept 2015
  11. Ming-Xian Chang and Wang-Yueh Chang, "Efficient detection for MIMO systems based on gradient search," IEEE Trans.Veh. Technol., vol. 65, pp. 10057-10063, Dec. 2016.
  12. Ming-Xian Chang and Wang-Yueh Chang, "Maximum-Likelihood detection for MIMO systems based on differential metrics," IEEE Trans. Signal Process. vol. 65, pp.3718-3732, Jul. 2017.
  13. Ming-Xian Chang and Szu-Lin Su, "Complexity-Reduced Maximum Likelihood Hybrid Detection for MIMO Systems.," IET Communications, 17, 829–841, 2023
會議論文( Conference )
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  1. Ming-Xian Chang and Yu T. Su, “2-D regression channel estim ation for equalizing OFDM signals,” in Proc. IEEE 51th Vehicular Technology Conference, Tokyo, pp. 240-244, May 2000.
  2. Ming-Xian Chang and Yu. T. Su, “Blind joint channel and data estimation for OFDM signals in Rayleigh fading,” in Proc. IEEE 53th Vehicular Technology Conference, Rhodes, Greece, pp. 791-795, May 2001.
  3. Yu T. Su and Ming-Xian Chang, “Blind detection of OFDM signals in fading channels,” in Proc. IEEE International symposium on Information Theory, pp. 198-198, June 2003.
  4. Ming-Xian Chang, “A novel algorithm of inter-subchannel interference cancellation in OFDM systems,” in Proc. IEEE 60th Vehicular Technology Conference, Los Angeles, pp. 460-464, Sept. 2004.
  5. Ming-Xian Chang and Sheng-Lun Chiou, “Semi-blind data detection of space-time coding systems in time-varying fading channels,” in Proc. IEEE 62th Vehicular Technology Conference, Dallas, pp. 962-966, Sept. 2005.
  6. Ming-Xian Chang, “A novel algorithm of inter-subchannel interference cancellation in OFDM systems,” in Proc. 5th International Workshop on multi-carrier and spread spectrum, Oberpfaffenhofen, Germany, pp. 75-82, Sept. 14-16, 2005 .
  7. Ming-Xian Chang and Chou-Chang Yang, “A novel architecture of single-carrier block transmission DS-CDMA,” in Proc. IEEE 64th Vehicular Technology Conference, Montreal, Canada, pp. 1-5, Sept. 2006.
  8. Sheng-Lun Chiou and Ming-Xian Chang, “Analysis of DS-UWB with MMSE equalization in dispersive channels,” in Proc. IEEE 2th International Conference on Wireless Communications, Networking and Mobile Computing , Wuhan, pp. 1-4, Sept. 2006.
  9. Ming-Xian Chang and Tsung-Da Hsieh, “Detection of OFDM signals in fast fading with low-density pilot symbols,” in Proc. IEEE Wireless Communications and Network Conference, Hong Kong, pp.1423-1428, Mar. 11-15, 2007.
  10. Ming-Xian Chang, “A Novel Branch-and-Bound Based Maximum-Likelihood MIMO Detection Algorithm,” in Proc. IEEE RWS Conference, Orlando, Fl, pp. 627-630, Jan. 22-24, 2008.
  11. Ming-Xian Chang, “Single-carrier block transmission asynchronous CDMA with frequency-domain equalization,” in Proc. IEEE Wireless Communications and Networking Conference, Las Vegas, NV, Mar. 31-Apr. 3, 2008.
  12. Sheng-Lun Chiou, Kuo-Wang Hsieh, and Ming-Xian Chang, “CSI Reduction of MIMO-OFDM Systems by Parameterization,” in Proc. IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, 15-18. Sept. 2008.
  13. Sheng-Lun Chiou, Wen-Sheng Hua, and Ming-Xian Chang, “Detection of TR-UWB by Recursion in Dense Multipath,” in Proc. 14th Asia-Pacific Conference on Communications, Tokyo, Japan, 14-16. Oct. 2008.
  14. Tsung-Da Hsieh and Ming-Xian Chang, “Detection of OFDM signals in fast time-varying channels with ICI self-cancellation,” in Proc. IEEE Sarnoff Symposium, 2009.
  15. Ming-Xian Chang and Tsung-Da Hsieh, “Realizable ideal D/C and C/D converters for OFDM signals,” in Proc. IEEE Sarnoff Symposium, 2009.
  16. Ming-Xian Chang, “Characterization of single-carrier block transmission under the precoded OFDM architecture,” in Proc. IEEE International Symposium in Wireless Pervasive Computating, 2010.
  17. Ming-Xian Chang and Ren-Shian Chen, “Realizable forms of ideal D/C and C/D conversions for complex bandlimited periodic signals,” in Proc. IEEE GlobeCom 2010.
  18. Ren-Shian Chen and Ming-Xian Chang, “CSI Feedback for closed-loop MIMO-OFDM systems based on B-splines,” in Proc. IEEE GlobeCom Workshop 2010.
  19. Ming-Xian Chang, Ren-Shian Chen“The Karhunen-Loeve expansion of 1D and 2D OFDM channel responses,” in Proc. IEEE 74th Vehicular Technology Conference, San Francisco, 2011.
  20. Ren-Shian Chen and Ming-Xian Chang, “Blind and semiblind detection of OFDM signals in the Multipath Fading Channel,” in Proc. IEEE GlobeCom Workshop 2011.
  21. Ming-Xian Chi-Shuo Li, Chiung-Wen Wei, and Chih-Kuan Lee, “Analysis of mean-squares errors for channel response estimation based on frequency- and time-domain pilot signals,” in Proc. International Symposium on Wireless Communication Systems, 2012.
  22. Ming-Xian Chang and Ching-Yu Chung “An efficient algorithm of inter-subchannel interference self-reduction for the single-carrier block transmission,” in Proc. IEEE PIMRC 2013.
  23. Ming-Xian Chang and Ren-Shian Chen, “An efficient blind detection algorithm for OFDM systems in selective fading channels,” in Proc. IEEE GlobeCom 2013.
  24. Ming-Xian Chang, Wang-Yueh Chang and Zheng-Hong Li, “Efficient detection for the MIMO system based on differential metrics,” in Proc. IEEE APWCS 2014.
  25. Ming-Xian Chang and Wang-Yueh Chang, “ Efficient maximum-likelihood detection for the MIMO system based on differential metrics,”in Proc. IEEE WCNC 2015.
  26. Shih-Chi Liao and Ming-Xian Chang, Non-Extended schemes for inter-subchannel interference self-reduction in the OFDM system" in Proc. IEEE APWCS 2015.
  27. Ming-Xian Chang and Tzy-Yu Wu, "On the Impact of Residual Inter-Subchannel Interference for the SC-FDE System," in Proc. ICWMC 2016.
  28. Wang-Yueh Chang and Ming-Xian Chang "An Efficient Soft MIMO Detection Based on Differential Metrics " in Proc. IEEE VTC Spring 2017.
  29. Ming-Xian Chang and Sze-Lin Su, " Efficient Maximum-Likelihood Detection for the MIMO System in Hybrid Mode" in Proc. IEEE VTC Fall 2018.
  30. Pei-Hua Wu and Ming-Xian Chang, "Detection of MIMO Systems Based on Dynamic Search for High-Order Modulations" to appear in Proc. IEEE VTC Fall 2019.
  31. Shu-Fan Lin and Ming-Xian Chang, "Cooperative Communications Based on Harmonic Means of Channel Responses" in Proc. IEEE APWCS 2021
  32. Po-Chun Lee and Ming-Xian Chang, "Improved Detection for Single-Carrier Block Transmission Based on Gradient Search" in Proc. IEEE APWCS 2023
專利
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其他
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研究計劃
  1. 以特徵向量近似為基礎之線性最小均方差正交分頻系統通道估計法(91-2218-E-006-023-) (2002)(LMMSE Channel Estimation of OFDM systems Based on Eigenvectors Approximation)
  2. 正交分頻多工系統在快速變動通道下之盲式與半盲式信號偵測(92-2213-E-006-061- ) (2003)(Blind and Semi-Blind Detection of OFDM Signals in Fast-Varying Channels)
  3. 低複雜度低引導符元密度之正交分頻多工系統在快速變動通道下之信號偵測(93-2213-E-006-089-) (2004)(Detection of OFDM Signals in Fast-Varying Channels with Low-Density Pilot Symbols)
  4. 多協定層極寬頻無線網路之研發--子計畫五:基於區塊傳輸與頻域處理之UWB 系統與其信號偵測及展頻、時空碼之研究 (三年期2005-2008)(Block Transmission and Frequency-Domain Processing of UWB Systems --- Signal Detection, Spread Spectrum, and Space- Time Codes)
  5. 資源限制及通道感知之無線通訊網路的研究--子計畫二:基於通道訊息縮編之通道感知適應性傳輸 (三年期2008-2011) (Channel-Aware Adaptive Transmission with Efficient CSI Reduction)
  6. 節能及高移動性通訊技術之研究-子計畫一:高移動環境下之高效能基頻通訊系統 (2011) (Efficient Baseband Transceivers in High-Mobility Environments)
  7. 支援移動性之高效率通訊技術研究--子計畫一:高移動環境下的基頻通訊系統設計與研究 (兩年期2012-2014) (On the Transceiver Design for High-Mobility Environments)
  8. B4G系統密集小細胞相關技術之研究I-子計畫一:基於Karhunen-Loeve轉換之有效通道響應回傳及多輸入多輸出系統信號偵測 (2014) (Efficient Channel Responses Feedback based on Karhunen-Loeve Transform and Signal Detection of the MIMO System)
  9. B4G系統密集小細胞相關技術之研究II-子計畫一:基於Karhunen-Loeve轉換之有效通道響應回傳及多輸入多輸出系統信號偵測 (2015) (Efficient Channel Responses Feedback based on Karhunen-Loeve Transform and Signal Detection of the MIMO System)
  10. B4G系統密集小細胞相關技術之研究III-子計畫一:基於Karhunen-Loeve轉換之有效通道響應回傳及多輸入多輸出系統信號偵測 (2016) (Efficient Channel Responses Feedback based on Karhunen-Loeve Transform and Signal Detection of the MIMO System)
  11. 在多天線系統之最大可能性偵測研究 (2017) (New Maximum-Likelihood Detection for the MIMO System)
  12. 在多天線系統之最大可能性偵測研究 II (2018) (New Maximum-Likelihood Detection for the MIMO System II)
  13. 以混合模式有效實現多輸入多輸出系統之最大可能性偵測 (2019) (Efficient Maximum Likelihood Detection for the MIMO System in Hybrid Mode)
  14. 以混合模式有效實現多輸入多輸出系統之最大可能性偵測 II (2020) (Efficient Maximum Likelihood Detection for the MIMO System in Hybrid Mode II)
  15. 高階指示函數的研究及其在偵測上之應用 (2022) (On the High-Order Indicative Functions and the Aplication on Detections)
  16. 基於有效梯度搜尋法之通訊系統信號偵測改善(2024)( Improved Signal Detection of Communication Systems Based on Efficient Gradient Search)
開授課程
113學年度上學期
指導學生
本學年度 實驗室成員
碩士班
杜元椿
林立堂
黃柏睿
梁哲嘉
薛丞延
朱智群
郭承宗
陳清良
陳嘉佑
滕宗諺
已畢業學生
博士
98
謝宗達
103
陳仁賢
106
張汪鉞
碩士
93
邱聖倫   許峻豪   陳盈志   湯憲忠   梁志傑
94
張振武   吳嘉慶   蘇漢添   游景富   莊雅善
95
楊宙璋   汪新堯   陳正育   蔡皓謙   高健育   吳建昇
96
林明哲   黃耀熠    蔡易成   詹忠勳   邱俊達   黃大瑋   高明駿
97
謝國旺   蔡慶鴻   華文聖   鄭勝隆   吳忠穎
98
洪嘉嶸    魏瓊文   李致寬   黃士員   陳仁賢   彭達煒
99
李啟碩   邱繼民    林子平   陳宏承   陳偉銘
100
曾裕鴻   陳彥良   陳政雨   余泊鎧
101
林良徽   吳思葦   陳朝銘   魏敬霖
102
吳瑞郁   郭翔霖   曾涵渝   鍾景宇   朱柏安
103
江宗衡   李政鴻   陳維廷   歐陽霖
104
吳梓榆   林韋佑   廖思齊   蔡皓宇
105
陳立遠   鍾裕邦
106
施惟棠   陳怡伶   曾士維   鄭宇翔   葉紘瑜
107
江承翰   時世帆   鄭安廷   謝承儒
108
方珈証   朱浩誠   吳沛樺   張祐銘
109
邱建中   施博翊   張宇慶   魯承善
110
陳秉澤   林書帆   黃誠忠   蔡翔任   鄭丞堯
111
陳佑誠   曾琪端
112
伍安   李明翰   李柏均   李柏豫    李逸帆   林哲葳   柯家程
113
洪士庭   曾主龍   楊竣翔
特殊榮譽
  1. 博士生張汪鉞獲得106年度科林博士論文獎(資訊與通訊領域)