教師資料

魏榮宗 Rong-Jong Wai
職稱
特聘教授
學歷
中原大學電子工程博士
電子郵件
rjwai@mail.ntust.edu.tw
辦公室
電資館705-5

Office Hours 周一至周三
電話 02-27376367
傳真 02-27336424
個人網頁 http://140.118.2.201
實驗室 能源科技暨機電整合實驗室
研究領域 伺服馬達驅動、控制理論發展、電力電子、機電整合、能源科技
開授課程 控制系統、電路學

2018.08 ~  迄今 台灣科技大學總務長
2018.03 ~  迄今 台灣科技大學電子工程學系特聘教授
2016.06 ~  迄今 節能診斷服務中心主任
2016.01 ~  迄今 中衛發展中心 專案計畫技術顧問
2015.08 ~  2018.02 台灣科技大學電子工程學系教授
2015.03 ~  2017.03 台灣檢驗科技(SGS)公司 驗證諮詢委員會 主任委員
2015.01 ~  2015.12 科技部 控制學門 計畫複審委員
2014.10 ~  2015.07 財團法人資訊工業策進會 智慧網通系統研究所 合聘教授
2014.08 ~  2015.07 元智大學 電機工程學系 系主任
2013.10 ~  2015.09 展成科技股份有限公司 研發部門 技術顧問
2012.04 ~  2014.12 中國工程師學會 智庫委員會 委員
2011.01 ~  2011.12 中華民國青年管理國家促進會 專案計畫 技術顧問
2010.04 ~  迄今 台灣產業服務基金會 專案計畫 技術顧問
2009.09 ~  迄今 台灣綠色生產力基金會 專案計畫 技術顧問
2008.08 ~  2013.07 元智大學 總務處 總務長
2008.08 ~  2012.07 元智大學 環安衛中心 主任
2008.08 ~  迄今 財團法人高等教育評鑑中心 基金會 評鑑委員
2007.09 ~  2008.08 掌宇股份有限公司 研發部門 技術顧問
2006.02 ~  2015.07 元智大學 電機工程學系 教授
2005.08 ~  2008.07 元智大學 研發處 建教合作組長
2004.03 ~  2005.02 寧茂企業股份有限公司 研發部門 技術顧問
2004.03 ~  2005.02 茂迪股份有限公司 研發部門 技術顧問
2003.06 ~  2004.05 星鼎科技公司 研發部門 研發顧問
2003.04 ~  2006.12 經濟部 智慧財產局 專利審查委員
2003.02 ~  2006.01 元智大學 電機工程學系 副教授
1999.08 ~  2003.01 元智大學 電機工程學系 助理教授


2018 2018年國立臺灣科技大學「傑出研究及創作獎」
2016 2016年國立臺灣科技大學「傑出研究及創作獎」
2016 2016年全球電力電子工程學科「高被引用學者」(全台十二位之一)
2015 2015年應用系統創新國際會議「最佳論文獎」
2015 2015年台北國際發明暨技術交易展電子類「發明金牌獎」
2015 2015年台北國際發明暨技術交易展電子類「發明銀牌獎」
2014 2014年財團法人徐有庠先生紀念基金會「有庠科技論文獎(綠色科技類)」
2014 2014年Scopus青年科學家獎「第一名(Computer Science)」
2013 一百零二年財團法人徐有庠先生紀念基金會「有庠元智講座」
2013 一百零二年中國工程師學會「傑出工程教授獎」
2012 2012年台北國際發明暨技術交易展電力類「發明銅牌獎」
2012 2012年當選十大傑出青年(科技發展類)
2012 2012年當選100MVP最有價值經理人
2011 2011年當選IET Fellow
2010 九十九年財團法人徐有庠先生紀念基金會「有庠元智講座」
2010 九十九年經濟部技術處「大學產業經濟貢獻獎」
2010 2010年台北國際發明暨技術交易展電力與電機設備類「發明銅牌獎」
2010 九十九年中國電機工程學會「傑出電機工程教授獎」
2008 九十七年財團法人徐有庠先生紀念基金會「有庠傑出教授獎」
2008 2008年台北國際發明暨技術交易展電子類「發明金牌獎」
2008 2008年台北國際發明暨技術交易展電子類「發明銀牌獎」
2008 2008年台北國際發明暨技術交易展環保類「發明金牌獎」
2008 2008年台北國際發明暨技術交易展「最佳綠色產品獎」
2007 九十六年財團法人徐有庠先生紀念基金會「有庠元智講座」
2007 2007年台北國際發明暨技術交易展電器類「發明銀牌獎」
2007 九十五學年度元智大學「研究傑出獎」
2006 2006年美國電機電子學會人工智慧系統國際會議「最佳論文獎」
2006 2006-2015年列入「Who's Who in Asia」
2006 2006-2015年列入「Who's Who of Emerging Leaders」
2006 九十五年國科會電力學門電力應用實作觀摩競賽「最佳論文獎」
2005 2005年列入「Leading Scientists of the World」
2005 2005年International Biographical Centre, Cambridge, England,「International Professional of the Year Award」
2005 九十四年中華民國電力電子協會「優秀論文獎」
2005 2005年晉升IEEE Senior Member
2005 九十四年中華民國自動控制學會「青年自動控制工程獎」
2005 九十三學年度元智大學「服務傑出獎」
2004 2004-2015年列入「Who's Who in Science and Engineering」
2004 九十三年中國電機工程學會「優秀青年電機工程師獎」
2004 九十三年財團法人徐有庠先生紀念基金會「有庠傑出教授獎」
2004 2004-2015年列入「Who's Who in the World」
2003 九十二年度國科會「吳大猷先生紀念獎」
2003 九十二年度國科會電力學門新進人員成果評選「優等獎」
2003 九十一學年度元智大學「研究傑出獎」
2000 八十九學年度國科會研究獎助「甲種獎」

研究成果
  [1]   W. Gao, R. J. Wai, S. P. Qiao, and M. F. Guo, “Mechanical faults diagnosis of high-voltage circuit breaker via hybrid features and integrated extreme learning machine,” IEEE Access, vol. 7, no. 1, pp. 60091-60103, December 2019. (MOST 106-2221-E-011-028-MY2, SCI & EI)
  [2]   J. M. Huang, R. J. Wai, and W. Gao, “Newly-designed fault diagnostic method for solar photovoltaic generation system based on IV-curve measurement,” IEEE Access, vol. 7, no. 1, pp. 70919-70932, December 2019. (MOST 106-2221-E-011-028-MY2, SCI & EI)
  [3]   W. Gao, R. J. Wai, Y. F. Liao, M. F. Guo, and Y. Yang, “Internal overvoltage identification of distribution network via time-frequency atomic decomposition,” IEEE Access, accept for publication. (MOST 106-2221-E-011-028-MY2, SCI & EI)
  [4]   R. J. Wai and Z. F. Zhang, “High-efficiency single-input triple-outputs DC-DC converter with zero-current switching,” IEEE Access, accept for publication. (MOST 106-2221-E-011-028-MY2, SCI & EI)
  [5]   R. J. Wai and Y. Yang, “Design of backstepping direct power control for three-phase PWM rectifier,” IEEE Transactions on Industrial Applications, vol. 55, no. 3, pp. 3160-3173, May/June 2019. (MOST 107-3113-E-011-001 and MOST 106-2221-E-011-028 -MY2, SCI & EI)
  [6]   Y. Wang and R. J. Wai, “Adaptive power decoupling strategy for single-phase grid-connected converter,” IEEE Transactions on Industrial Applications, accept for publication, 2019. (MOST 106-2221-E-011-028 -MY2, SCI & EI)
  [7]   C. P. Lin, R. J. Wai, and Y. L. Shen, “Newly-design energy-saving diagnosis method of user-side scene lighting,” Environmental Progress & Sustainable Energy, vol. 38, no. 3, pp. 1-14, May/June 2019. (MOST 107-3113-E-011-001, SCI & EI)
  [8]   K. P. Huang, Y. Wang, and R. J. Wai, “Design of power decoupling strategy for single-phase grid-connected inverter under nonideal power grid,” IEEE Transactions on Power Electronics, vol. 34, no. 3, pp. 2938-2955, March 2019. (MOST 106-2221-E-011-028-MY2 and MOST 107-3113-E-011-001, SCI & EI)
  [9]   A. S. Prasetia, R. J. Wai, Y. L. Wen, and Y. K. Wang, “Mission-based energy consumption prediction of multirotor UAV,” IEEE Access, vol. 7, no. 1, pp. 33055-33063, March 2019.
  [10]   Y. Wu, S. Cheng, and R. J. Wai, “Coordinated optimization scheduling of multi-microgrid based on double-auction,” Proceedings of the CSU-EPSA, vol. 31, no. 3, pp. 96-101, March 2019.
  [11]   S. Cheng, T. Huang, and R. J. Wai, “Multi-time-scale optimal scheduling of CCHP microgrid with ice-storage air-conditioning,” Automation of Electric Power Systems, vol. 43, no. 5, pp. 30-38, March 2019. (EI)
  [12]   R. J. Wai, Q. Q. Zhang, and Y. Wang, “A novel voltage stabilization and power sharing control method based on virtual complex impedance for off-grid microgrid,” IEEE Transactions on Power Electronics, vol. 34, no. 2, pp. 1863-1880, February 2019. (MOST 107-3113-E-011-001, SCI & EI)
  [13]   R. Y. Duan, F. Q. Yang, R. J. Wai, and Z. F. Zhang, “Design of high-efficiency interleaved converter with wide-range output voltage,” Power Electronics Magazine, vol. 16, no. 3, pp. 26-35, June 2018. (NSC 102-2221-E-241-008 & MOST 107-3113-E-011-001)
  [14]   Z. X. Zhong, R. J. Wai, Z. H. Shao, and M. Xu, “Reachable set estimation and decentralized controller design for large-scale nonlinear systems with time-varying delay and input constraint,” IEEE Transactions on Fuzzy Systems, vol. 25, no. 6, pp. 1629-1643, December 2017. (MOST 104-2221-E-011-172-MY3, SCI & EI)
  [15]   B. Wang, J. Xu, R. J. Wai, and B. Cao, “Adaptive sliding-mode with hysteresis control strategy for simple multi-mode hybrid energy storage system in electric vehicles,” IEEE Transactions on Industrial Electronics, vol. 64, no. 2, pp. 1404-1414, Feb. 2017. (MOST 104-2221-E-011-172-MY3, SCI & EI)
  [16]   B. Wang, J. Xu, R. J. Wai, and B. Cao, “Adaptive sliding-mode with hysteresis control strategy for simple multi-mode hybrid energy storage system in electric vehicles,” IEEE Transactions on Industrial Electronics, accept for publication, 2016. (MOST 104-2221-E-011-172-MY3, SCI & EI)
  [17]   R. J. Wai, H. Y. Ting, and C. H. Yu, “Fuzzy-neural-network inherited total sliding-mode control for robot manipulator,” Applied System Innovation, pp. 311-314, October 2016. (MOST 104-2221-E-155-016-MY3, EI)
  [18]   R. J. Wai, Y. F. Lin and C. C. Liao, “Automatic detection design and electromagnetic shielding effectiveness of synthetic graphite sheets,” Applied System Innovation, pp. 403-406, October 2016. (EI)
  [19]   R. J. Wai and J. J. Liaw, “High-efficiency coupled-inductor-based step-down converter,” IEEE Transactions on Power Electronics, vol. 31, no. 6, pp. 4265-4279, June 2016. (MOST 104-2221-E-011-172-MY3, SCI & EI)
  [20]   R. J. Wai, M. W. Chen, and J. X. Yao, “Observer-based adaptive fuzzy-neural-network control for hybrid maglev transportation system,” Neurocomputing, vol. 175, pp. 10-24, January 2016. (MOST 104-2221-E-155-016-MY3, SCI & EI)
  [21]   R. J. Wai, Y. F. Lin, and Y. K. Liu, “Design of adaptive fuzzy-neural-network control for single-stage boost inverter,” IEEE Transactions on Power Electronics, vol. 30, no. 12, pp. 7282-7298, December 2015. (NSC 101-2221-E-155-043-MY3, SCI & EI)
  [22]   R. J. Wai and J. J. Liaw, “High-efficiency isolated single-input multiple-output bidirectional converter,” IEEE Transactions on Power Electronics, vol. 30, no. 9, pp. 4914-4930, September 2015. (NSC 101-2221-E-155-043-MY3, SCI & EI)
  [23]   R. J. Wai, M. W. Chen, and Y. K. Liu, “Design of adaptive control and fuzzy neural network control for single-stage boost inverter,” IEEE Transactions on Industrial Electronics, vol. 62, no. 9, pp. 5434-5445, September 2015. (NSC 101-2221-E-155-043-MY3, SCI & EI)
  [24]   Y. F. Lin, C. T. Hsieh, and R. J. Wai, “Facile synthesis of graphene sheets for heat sink application,” Solid State Sciences, vol. 43, pp. 22-27, May 2015. (NSC 101-2628-E-155-001-MY3, MOST 103-2221-E-155-014-MY2, SCI & EI)
  [25]   R. J. Wai, J. X. Yao, and J. D. Lee, “Backstepping fuzzy-neural-network control design for hybrid maglev transportation system,” IEEE Transactions on Neural Networks and Learning Systems, vol. 26, no. 2, pp. 302-317, February 2015. (NSC 97-2221-E-155-065-MY2, NSC 102-3113-P-155-001, SCI & EI)
  [26]   R. J. Wai, Y. F. Lin, and Y. C. Chen, “Design of installation capacity evaluation mechanism for hybrid energy generation system,” Environmental Progress & Sustainable Energy, vol. 33, no. 4, pp. 1322-1331, December 2014. (NSC 102-3113-P-155-001, SCI & EI)
  [27]   R. J. Wai, “Hybrid heat-water supply system with solar heat and heat pump,” Engineering, vol. 87, no. 6, pp. 69-75, December 2014.
  [28]   R. J. Wai and R. Muthusamy, “Design of fuzzy-neural-network inherited backstepping control for robot manipulator including actuator dynamics,” IEEE Transactions on Fuzzy Systems, vol. 22, no. 4, pp. 709-722, August 2014. (NSC 98-2221-E-155-057-MY3, SCI & EI)
  [29]   R. J. Wai and B. H. Chen, “High-efficiency dual-input interleaved DC-DC converter for reversible power sources,” IEEE Transactions on Power Electronics, vol. 29, no. 6, pp. 2903-2921, June 2014. (NSC 101-2221-E-155-043-MY3, SCI & EI)
  [30]   R. J. Wai, Y. F. Lin, and K. L. Chuang, “Total sliding-mode-based particle swarm optimization control for linear induction motor,” Journal of the Franklin Institute, vol. 351, no. 5, pp. 2755-2780, May 2014. (NSC 97-2221-E-155-065-MY2, NSC 102-3113-P-155-001, SCI & EI)
  [31]   R. J. Wai, L. S. Hong, and J. J. Liaw, “High-efficiency bidirectional single-input multiple-output power converter,” IET Power Electronics, vol. 7, no. 5, pp. 1278-1293, May 2014. (NSC 101-2221-E-155-043-MY3, NSC 102-3113-P-155-001, SCI & EI)
  [32]   R. J. Wai, S. Cheng, Y. F. Lin, and Y. C. Chen, “Installed capacity selection of hybrid energy generation system via improved particle-swarm-optimisation,” IET Generation, Transmission & Distribution, vol. 8, no. 4, pp. 742-752, April 2014. (NSC 102-3113-P-155-001, SCI & EI)
  [33]   S. Cheng, M. Y. Chen, R. J. Wai, and F. Z. Wang, “Optimal placement of distributed generation units in distribution systems via an enhanced multi-objective particle swarm optimization algorithm,” Journal of Zhejiang University-SCIENCE C, vol. 15, no. 4, pp. 300-311, April 2014. (SCI & EI)
  [34]   H. J. Yang, K. G. Xie, R. J. Wai, and Chun-Yan Li, “Reliability evaluation of electrical distribution network containing distributed generation using directed-relation-graph”, Journal of Electrical Engineering & Technology, vol. 9, no. 4, pp. 1188-1195, April 2014. (SCI & EI)
  [35]   R. J. Wai, and L. S. Hong, “High-efficiency dual-input converter with high voltage gain and internal charge function,” IET Power Electronics, vol. 7, no. 2, pp. 299-315, February 2014. (NSC 101-3113-E-155-001, NSC 101-2221-E-155-043-MY3, SCI & EI)
  [36]   R. J. Wai, Y. C. Huang, Y. C. Chen, and Y. W. Lin, “Performance comparisons of intelligent load forecasting structures and its application to energy-saving load regulation,” Soft Computing, vol. 17, no. 10, pp. 1797-1815, October 2013. (SCI & EI)
  [37]   R. J. Wai and Y. W. Lin, “Adaptive moving-target tracking control of a vision-based mobile robot via a dynamic petri recurrent fuzzy neural network,” IEEE Transactions on Fuzzy Systems, vol. 21, no. 4, pp. 688-701, August 2013. (NSC 100-2628-E-155-003-MY3, SCI & EI)
  [38]   R. J. Wai, S. J. Jhung, J. J. Liaw, and Y. R. Chang, “Intelligent optimal energy management system for hybrid power sources including fuel cell and battery,” IEEE Transactions on Power Electronics, vol. 28, no. 7, pp. 3231-3244, July 2013. (NSC 100-2628-E-155-003-MY3, NSC 101-3113-E-155-001, SCI & EI)
  [39]   R. J. Wai, C. Y. Lin, W. C. Wu, and H. N. Huang, “Design of backstepping control for high-performance inverter with stand-alone and grid-connected power-supply modes,” IET Power Electronics, vol. 6, no. 4, pp. 752-762, April 2013. (NSC 100-2628-E-155-003-MY3, NSC 101-3113-E-155-001, SCI & EI)
  [40]   R. J. Wai, C. Y. Lin, Y. C. Huang, and Y. R. Chang, “Design of high-performance stand-alone and grid-connected inverter for distributed generation applications,” IEEE Transactions on Industrial Electronics, vol. 60, no. 4, pp. 1542-1555, April 2013. (NSC 98-3114-E-155-001, NSC 100-3113-E-155-001, SCI & EI)
  [41]   G. D. Wang, R. J. Wai, and Y. Liao, “Design of backstepping power control for grid-side converter of voltage source converter-based high voltage dc wind power generation system,” IET Renewable Power Generation, vol. 7, no. 2, pp. 118-133, March 2013. (SCI & EI)
  [42]   R. J. Wai and K. H. Jheng, “High-efficiency single-input multiple-output DC-DC converter,” IEEE Transactions on Power Electronics, vol. 28, no. 2, pp. 886-898, February 2013. (NSC 100-3113-E-155-001, SCI & EI, Scientific Paper Award-Green Technology)
  [43]   R. J. Wai and R. Muthusamy, “Fuzzy-neural-network inherited sliding-mode control for robot manipulator including actuator dynamics,” IEEE Transactions on Neural Networks and Learning Systems, vol. 24, no. 2, pp. 274-287, February 2013. (NSC 98-2221-E-155-057-MY3, SCI & EI)
  [44]   R. J. Wai and J. J. Liaw, “Design of clock and ramp generator circuit framework with 0.9V low operational voltage,” Applied Mechanics and Materials, vols. 284-287, pp. 2502-2508, January 2013. (NSC 98-2623-E-155-001-ET, EI)
  [45]   R. J. Wai, L. N. Huang, C. S. Lin, and C. T. Cheng, “Intelligent stand-alone power supply and grid-connected system of hybrid energy”, Engineering Journal of Wuhan University, vol. 45, no. 6, pp. 692-702, December 2012.
  [46]   R. J. Wai and S. J. Jhung, “Design of energy-saving adaptive fast-charging control strategy for Li-FePO4 battery module,” IET Power Electronics, vol. 5, no. 9, pp. 1684-1693, November 2012. (NSC 99-2218-E-155-001, NSC 100-2628-E-155-003-MY3, SCI & EI)
  [47]   R. J. Wai and L. C. Shih, “Adaptive fuzzy-neural-network design for voltage tracking control of a dc-dc boost converter,” IEEE Transactions on Power Electronics, vol. 27, no. 4, pp. 2104-2115, April 2012. (NSC 100-3113-E-155-001, SCI & EI)
  [48]   R. J. Wai, C. Y. Lin, and B. H. Chen, “High-efficiency DC-DC converter with two input power sources,” IEEE Transactions on Power Electronics, vol. 27, no. 4, pp. 1862-1875, April 2012. (NSC 98-3114-E-155-001, NSC 100-3113-E-155-001, SCI & EI)
  [49]   R. J. Wai, R. Y. Duan, and K. H. Jheng, “High-efficiency bidirectional dc-dc converter with high voltage gain,” IET Power Electronics, vol. 5, no. 2, pp. 173-184, February 2012. (NSC 100-3113-E-155-001, SCI & EI)
  [50]   R. J. Wai, N. C. Yang, and L. N. Huang, “Impact analysis and technical development of hybrid energy power monitoring and control for intelligent micro grid”, Chinese Institute of Engineers Transaction , vol. 85, no. 3, pp. 106-123, June 2012. (NSC 101-3113-E-155-001)
  [51]   R. J. Wai, Y. W. Lin, and Y. C. Yang, “Experimental verification of total sliding-mode control for Chua’s chaotic circuit,” IET Circuits, Devices & Systems, vol. 5, no. 6, pp. 451-461, December 2011. (NSC 98-2221-E-155-057-MY3, SCI & EI)
  [52]   R. J. Wai and C. Y. Lin, “Dual active low-frequency ripple control for clean-energy power-conditioning mechanism,” IEEE Transactions on Industrial Electronics, vol. 58, no.11, pp. 5172-5185, November 2011. (NSC 97-2623-7-155-002-ET, NSC 98-3114-E-155-001, SCI & EI)
  [53]   R. J. Wai and L. C. Shih, “Design of voltage tracking control for DC-DC boost converter via total sliding-mode technique,” IEEE Transactions on Industrial Electronics, vol. 58, no. 6, pp. 2502-2511, June 2011. (NSC 100-3113-E-155-001, SCI & EI)
  [54]   R. J. Wai, C. M. Liu, and Y. W. Lin, “Design of switching path-planning control for obstacle avoidance of mobile robot,” Journal of the Franklin Institute, vol. 348, no. 4, pp. 718-737, May 2011. (NSC 99-2218-E-155-001, SCI & EI)
  [55]   R. J. Wai, C. M. Liu, and Y. W. Lin, “Robust path tracking control of mobile robot via dynamic petri recurrent fuzzy neural network,” Soft Computing, vol. 15, no. 4, pp. 743-767, April 2011. (NSC 98-2221-E-155-057-MY3, SCI & EI)
  [56]   R. J. Wai, C. Y. Lin, J. J. Liaw, and Y. R. Chang, “Newly-designed ZVS multi-input converter,” IEEE Transactions on Industrial Electronics, vol. 58, no. 2, pp. 555-566, February 2011. (NSC 98-2218-E-155-009 and NSC 98-3114-E-155-001, SCI & EI)
  [57]   R. J. Wai, J. D. Lee, and K. L. Chuang, “Real-time PID control strategy for maglev transportation system via particle swarm optimization,” IEEE Transactions on Industrial Electronics, vol. 58, no. 2, pp. 629-646, February 2011. (NSC 97-2221-E-155-065-MY2, SCI & EI)
  [58]   R. J. Wai and C. Y. Lin, “Active low-frequency ripple control for clean-energy power conditioning mechanism,” IEEE Transactions on Industrial Electronics, vol. 57, no. 11, pp. 3780-3792, November 2010. (NSC 97-2623-7-155-002-ET, SCI & EI)
  [59]   R. J. Wai, Y. C. Chen, L. N. Huang, Y. C. Chang, and C. G. Lin, “Optimization design for installation capacity of hybrid energy generation system”, Journal of Taiyuan University of Technology, vol. 41, no. 5, pp. 521-526, September 2010.
  [60]   R. J. Wai, L. N. Huang, Y. C. Chen, Y. C. Chang, and C. G. Lin, “User demand analysis of hybrid energy generation system”, Journal of Taiyuan University of Technology, vol. 41, no. 5, pp. 538-542, September 2010.
  [61]   R. J. Wai, K. L. Chuang, and J. D. Lee, “On-line supervisory control design for maglev transportation system via total sliding-mode approach and particle swarm optimization,” IEEE Transactions on Automatic Control, vol. 55, no. 7, pp. 1544-1559, July 2010. (NSC 97-2221-E-155-065-MY2, SCI & EI)
  [62]   R. J. Wai, Y. C. Huang, Z. W. Yang, and C. Y. Shih, “Adaptive fuzzy-neural-network velocity sensorless control for robot manipulator position tracking,” IET Control Theory & Applications, vol. 4, no. 6, pp. 1079-1093, June 2010. (NSC 98-2221-E-155-057-MY3, SCI & EI)
  [63]   R. J. Wai and K. L. Chuang, “Design of backstepping particle-swarm-optimization control for maglev transportation system,” IET Control Theory & Applications, vol. 4, no. 4, pp. 625-645, April 2010. (NSC 97-2221-E-155-065-MY2, SCI & EI)
  [64]   R. J. Wai and Y. C. Chang, “Application and development of intelligent hybrid energy power supply system,” Sustainable Industrial Development, vol. 45, pp. 56-61, August 2009.
  [65]   R. J. Wai, C. Y. Lin, and Y. R. Chang, “High step-up bidirectional isolated converter with two input power sources,” IEEE Transactions on Industrial Electronics, vol. 56, no. 7, pp. 2629-2643, July 2009. (NSC 97-3114-E-155-002, SCI & EI)
  [66]   R. J. Wai and C. M. Liu, “Design of dynamic petri recurrent fuzzy neural network and its application to path-tracking control of nonholonomic mobile robot,” IEEE Transactions on Industrial Electronics, vol. 56, no. 7, pp. 2667-2683, July 2009. (NSC 97-2221-E-155-065-MY2, NSC 97-3114-E-155-002, SCI & EI)
  [67]   R. J. Wai and Y. C. Chen, “Design of automatic fuzzy control for parallel DC-DC converters,” Engineering Letters, vol. 17, no. 2, pp. 83-92, June 2009. (NSC 97-2221-E-155-065-MY2)
  [68]   R. J. Wai, “High-performance power condition and control for solar photovoltaic system,” NSC Engineering Science & Technology Bulletin (Invited Article), vol. 101, pp. 33-37, June 2009. (NSC 95-2221-E-155-070-MY3)
  [69]   R. J. Wai and J. D. Lee, “Robust levitation control for linear maglev rail system using fuzzy neural network,” IEEE Transactions on Control Systems Technology, vol. 17, no. 1, pp. 4-14, January 2009. (NSC 95-2221-E-155-085, SCI & EI)
  [70]   R. J. Wai, C. Y. Lin, C. Y. Lin, R. Y. Duan, and Y. R. Chang, “High-efficiency power conversion system for kilowatt-level stand-alone generation unit with low input voltage,” IEEE Transactions on Industrial Electronics, vol. 55, no. 10, pp. 3702-3714, October 2008. (NSC 96-2623-7-155-004-NU)
  [71]   R. J. Wai and Z. W. Yang, “Adaptive fuzzy neural network control design via a T-S fuzzy model for a robot manipulator including actuator dynamics,” IEEE Transactions on Systems, Man and Cybernetics, Part B: Cybernetics, vol. 38, no. 5, pp. 1326-1346, October 2008. (NSC 95-2221-E-155-085)
  [72]   R. J. Wai, M. A. Kuo, and J. D. Lee, “Design of cascade adaptive fuzzy sliding-mode control for nonlinear two-axis inverted-pendulum servomechanism,” IEEE Transactions on Fuzzy Systems, vol. 16, no. 5, pp. 1232-1244, October 2008. (NSC 92-2213-E-155-030, NSC 93-2213-E-155-014, NSC 94-2213-E-155-001, SCI & EI)
  [73]   R. J. Wai, M. A. Kuo, and J. D. Lee, “Cascade direct adaptive fuzzy control design for a nonlinear two-axis inverted-pendulum servomechanism,” IEEE Transactions on Systems, Man and Cybernetics, Part B: Cybernetics, vol. 38, no. 2, pp. 439-454, April 2008. (NSC 92-2213-E-155-030, NSC 93-2213-E-155-014, NSC 94-2213-E-155-001, SCI & EI)
  [74]   R. J. Wai and W. H. Wang, “Grid-connected photovoltaic generation system,” IEEE Transactions on Circuits and Systems Part I: Regular Papers, vol. 55, no. 4, pp. 953-964, April 2008. (NSC 95-2221-E-155-070-MY3, SCI & EI)
  [75]   R. J. Wai and J. D. Lee, “Comparison of voltage-source resonant driving schemes for a linear piezoelectric ceramic motor,” IEEE Transactions on Industrial Electronics, vol. 55, no. 2, pp. 871-879, February 2008. (NSC 91-2213-E-155-063, NSC 92-2213-E-155-063, NSC 93-2213-E-155-022, SCI & EI)
  [76]   R. J. Wai and J. D. Lee, “Adaptive fuzzy-neural-network control for maglev transportation system,” IEEE Transactions on Neural Networks, vol. 19, no. 1, pp. 54-70, January 2008. (NSC 95-2221-E-155-085, SCI & EI)
  [77]   R. J. Wai and J. D. Lee, “Backstepping-based levitation control design for linear maglev rail system,” IET Proceedings? Control Theory and Applications, vol. 2, no. 1, pp. 72-86, January 2008. (NSC 95-2221-E-155-085, SCI & EI)
  [78]   R. J. Wai, W. H. Wang, and C. Y. Lin, “High-performance stand-alone photovoltaic generation system,” IEEE Transactions on Industrial Electronics, vol. 55, no. 1, pp. 240-250, January 2008. (NSC 95-2221-E-155-070-MY3, SCI & EI)
  [79]   R. J. Wai and C. H. Tu, “Development of Lyapunov-based genetic algorithm control for linear piezoelectric ceramic motor drive,” IEEE Transactions on Industrial Electronics, vol. 54, no. 5, pp. 2566-2582, October 2007. (NSC 91-2213-E-155-063, NSC 92-2213-E-155-063, NSC 93-2213-E-155-022, SCI & EI)
  [80]   R. J. Wai, C. Y. Lin, L. W. Liu, and Y. R. Chang, “High-efficiency single-stage bidirectional converter with multi-input power sources,” IET Proceedings ? Electric Power Applications, vol. 1, no. 5, pp. 763-777, September 2007. (NSC 96-2623-7-155-004-NU, SCI & EI)
  [81]   R. J. Wai and R. Y. Duan, “High-efficiency bidirectional converter for power sources with great voltage diversity,” IEEE Transactions on Power Electronics, vol. 22, no.5, pp. 1986-1996, September 2007. (NSC 95-2221-E-155-070-MY3, SCI & EI)
  [82]   R. J. Wai and C. H. Tu, “Design of total sliding-mode-based genetic algorithm control for hybrid resonant-driven linear piezoelectric ceramic motor,” IEEE Transactions on Power Electronics, vol. 22, no. 2, pp. 563-575, March 2007. (NSC 91-2213-E-155-063, NSC 92-2213-E-155-063, NSC 93-2213-E-155-022, SCI & EI)
  [83]   R. J. Wai, C. Y. Lin, and Y. R. Chang, “Novel maximum-power-extraction algorithm for PMSG wind generation system,” IET Proceedings ? Electric Power Applications, vol. 1, no. 2, pp. 275-283, March 2007. (NSC 95-2623-7-155-007-NU, NL940246, SCI & EI)
  [84]   R. J. Wai and C. C. Chu, “Robust petri fuzzy-neural-network control for linear induction motor drive,” IEEE Transactions on Industrial Electronics, vol. 54, no. 1, pp. 177-189, February 2007. (NSC 94-2213-E-155-001, SCI & EI)
  [85]   R. J. Wai and C. C. Chu, “Motion control of linear induction motor via petri fuzzy-neural-network,” IEEE Transactions on Industrial Electronics, vol. 54, no. 1, pp. 281-295, February 2007. (NSC 93-2213-E-155-014, SCI & EI)
  [86]   R. J. Wai, C. Y. Lin, R. Y. Duan, and Y. R. Chang, “High-efficiency DC-DC converter with high voltage gain and reduced switch stress,” IEEE Transactions on Industrial Electronics, vol. 54, no. 1, pp. 354-364, February 2007. (NL950206, MOE 0950026846, SCI & EI)
  [87]   R. J. Wai, “Fuzzy sliding-mode control using adaptive tuning technique,” IEEE Transactions on Industrial Electronics, vol. 54, no. 1, pp. 586-594, February 2007. (NSC 95-2221-E-155-085, SCI & EI)
  [88]   R. J. Wai, R. Y. Duan, and J. D. Lee, “High-order resonant drive circuit for linear piezoelectric ceramic motor,” NSC Engineering Science & Technology Bulletin (Invited Article), vol. 90, pp. 1-6, February 2007. (NSC 91-2213-E-155-063)
  [89]   R. J. Wai and P. C. Chen, “Robust neural-fuzzy-network control for robot manipulator including actuator dynamics,” IEEE Transactions on Industrial Electronics, vol. 53, no. 4, pp. 1328-1349, August 2006. (NSC 92-2213-E-155-030, SCI & EI)
  [90]   R. J. Wai and K. H. Su, “Adaptive enhanced fuzzy sliding-mode control for electrical servo drive,” IEEE Transactions on Industrial Electronics, vol. 53, no. 2, pp. 569-580, April 2006. (NSC 90-2213-E-155-003, SCI & EI)
  [91]   R. J. Wai and C. H. Tu, “Adaptive grey control for hybrid resonant driving linear piezoelectric ceramic motor,” IEEE Transactions on Industrial Electronics, vol. 53, no. 2, pp. 640-656, April 2006. (NSC 93-2213-E-155-022, SCI & EI)
  [92]   R. J. Wai and K. H. Su, “Supervisory control for linear piezoelectric ceramic motor drive using genetic algorithm,” IEEE Transactions on Industrial Electronics, vol. 53, no. 2, pp. 657-673, April 2006. (NSC 92-2213-E-155-063, SCI & EI)
  [93]   R. J. Wai and L. J. Chang, “Adaptive stabilizing and tracking control for nonlinear inverted-pendulum system via sliding-mode technique,” IEEE Transactions on Industrial Electronics, vol. 53, no. 2, pp. 674-692, April 2006. (NSC 93-2213-E-155-014, SCI & EI)
  [94]   R. J. Wai, L. W. Liu and R. Y. Duan, “High-efficiency voltage-clamped DC-DC converter with reduced reverse-recovery current and switch voltage stress,” IEEE Transactions on Industrial Electronics, vol. 53, no. 1, pp. 272-280, February 2006. (NSC 92-2623-7-155-014, 92-EC-17-A-05-S1-0012, SCI & EI)
  [95]   R. J. Wai and L. J. Chang, “Stabilizing and tracking control of nonlinear dual-axis inverted-pendulum system using fuzzy neural network,” IEEE Transactions on Fuzzy Systems, vol. 14, no. 1, pp. 145-168, February 2006. (NSC 92-2213-E-155-030, NSC 93-2213-E-155-014, NSC 94-2213-E-155-001, SCI & EI)
  [96]   R. J. Wai and J. D. Lee, “Performance comparisons of model-free control strategies for hybrid magnetic levitation system,” IEE Proceedings ? Electric Power Applications, vol. 152, no. 6, pp. 1556-1564, November 2005. (NSC 93-2213-E-155-014, SCI & EI)
  [97]   R. J. Wai and R. Y. Duan, “High step-up converter with coupled inductor,” IEEE Transactions on Power Electronics, vol. 20, no. 5, pp. 1025-1035, September 2005. (NSC 92-2623-7-155-014, 92-EC-17-A-05-S1-0012, SCI & EI)
  [98]   R. J. Wai and C. Y. Lin, “High-efficiency, high-step-up DC-DC converter for fuel-cell generation system,” IEE Proceedings ? Electric Power Applications, vol. 152, no. 5, pp. 1371-1378, September 2005. (NSC 92-2623-7-155-014, 92-EC-17-A-05-S1-0012, SCI & EI)
  [99]   R. J. Wai and R. Y. Duan, “High-efficiency power conversion for low power fuel cell generation system,” IEEE Transactions on Power Electronics, vol. 20, no. 4, pp. 847-856, July 2005. (NSC 92-2623-7-155-014, 92-EC-17-A-05-S1-0012, SCI & EI)
  [100]   R. J. Wai and R. Y. Duan, “High-efficiency DC/DC converter with high voltage gain,” IEE Proceedings ? Electric Power Applications, vol. 152, no. 4, pp. 793-802, July 2005. (92-EC-17-A-05-S1-0012, SCI & EI)
  [101]   R. J. Wai, R. Y. Duan, J. D. Lee and L. W. Liu, “High-efficiency fuel cell power inverter with soft-switching resonant technique,” IEEE Transactions on Energy Conversion, vol. 20, no. 2, pp. 485-492, June 2005. (91-EC-17-A-05-S1-0012, SCI & EI)
  [102]   R. J. Wai and K. M. Lin, “Robust decoupled control of direct field-oriented induction motor drive,” IEEE Transactions on Industrial Electronics, vol. 52, no. 3, pp. 837-854, June 2005. (NSC 90-2213-E-155-003)
  [103]   R. J. Wai, C. Y. Lin, L. W. Liu, and R. Y. Duan, “Voltage-clamped forward quasi-resonant converter with soft switching and reduced switch stress,” IEE Proceedings ? Electric Power Applications, vol. 152, no. 3, pp. 558-564, May 2005. (92-EC-17-A-05-S1-0012, SCI & EI)
  [104]   R. J. Wai, C. M. Lin and Y. F. Peng, “Adaptive hybrid control for linear piezoelectric ceramic motor drive using diagonal recurrent CMAC network,” IEEE Transactions on Neural Networks, vol. 15, no. 6, pp. 1491-1506, November 2004. (NSC 92-2213-E-155-063, SCI & EI)
  [105]   R. J. Wai, L. W. Liu, and P. H. Yao, “Soft-switching converter with active-clamp technique,” Electron Technology Information Magazine (Invited Paper), vol. 46, pp. 62-68, October 2004. (92-EC-17-A-05-S1-0012, NSC 92-2623-7-155-014)
  [106]   R. J. Wai and J. D. Lee, “Intelligent motion control for linear piezoelectric ceramic motor drive,” IEEE Transactions on Systems, Man and Cybernetics, Part B: Cybernetics, vol. 34, no. 5, pp. 2100-2111, October 2004. (NSC 92-2213-E-155-063, SCI & EI)
  [107]   F. J. Lin, R. J. Wai, and P. K. Huang, “Two-axis motion control system using wavelet neural network for ultrasonic motor drives,” IEE Proceedings ? Electric Power Applications, vol. 151, no. 5, pp. 613-621, September 2004. (NSC 91-2213-E-259-022, SCI & EI)
  [108]   R. J. Wai, L. W. Liu, and C. H. Lu, “A novel coupled-inductor converter with voltage-clamped circuit,” Electron Technology Information Magazine (Invited Paper), vol. 45, pp. 61-68, September 2004. (92-EC-17-A-05-S1-0012, NSC 92-2623-7-155-014)
  [109]   R. J. Wai, C. Y. Tu and K. Y. Hsieh, “Adaptive tracking control for robot manipulator,” International Journal of Systems Science, vol. 35, no. 11, pp. 615-627, September 2004. (NSC 92-2213-E-155-030, SCI & EI)
  [110]   R. J. Wai and M. C. Lee, “Robust sliding-mode control for nonlinear flexible arm using neural network,” Iranian Journal of Science & Technology, Transaction B (Invited Paper), vol. 28, no. B3, pp. 337-350, August 2004. (NSC 92-2213-E-155-030, SCI & EI)
  [111]   R. J. Wai and P. C. Chen, “Intelligent tracking control for robot manipulator including actuator dynamics via TSK-type fuzzy neural network,” IEEE Transactions on Fuzzy Systems, vol. 12, no. 4, pp. 552-559, August 2004. (NSC 92-2213-E-155-030, SCI & EI)
  [112]   R. J. Wai and L. W. Liu, “Development of multistage charge technique for fuel cell generation system,” Electron Technology Information Magazine (Invited Paper), vol. 42, pp. 42-45, June 2004. (92-EC-17-A-05-S1-0012, NSC 92-2623-7-155-014)
  [113]   R. J. Wai, C. M. Lin and C. F. Hsu, “Adaptive fuzzy sliding-mode control for electrical servo drive,” Fuzzy Sets and Systems, vol. 143, no. 2, pp. 295-310, April 2004. (NSC 90-2213-E-155-003, SCI & EI)
  [114]   R. J. Wai and J. D. Lee, “Development of industrial servo control system for elevator-door mechanism actuated by direct-drive induction machine,” Nonlinear Dynamics and Systems Theory (Invited Paper), vol. 4, no. 1, pp. 89-102, April 2004. (NSC 90-2213-E-155-003)
  [115]   R. J. Wai and H. H. Chang, “Backstepping wavelet neural network control for indirect field-oriented induction motor drive,” IEEE Transactions on Neural Networks, vol. 15, no. 2, pp. 367-382, March 2004. (NSC 90-2213-E-155-003, SCI & EI)
  [116]   Y. F. Peng, R. J. Wai and C. M. Lin, “Implementation of LLCC-resonant driving circuit and adaptive CMAC neural network control for linear piezoelectric ceramic motor,” IEEE Transactions on Industrial Electronics, vol. 51, no. 1, pp. 35-48, February 2004. (NSC 92-2213-E-155-063, SCI & EI)
  [117]   R. J. Wai and M. C. Lee, “Intelligent optimal control of single-link flexible robot arm,” IEEE Transactions on Industrial Electronics, vol. 51, no. 1, pp. 201-220, February 2004. (NSC 90-2213-E-155-014, SCI & EI)
  [118]   R. J. Wai, F. J. Lin and C. Y. Tu, “Adaptive sliding-mode control for motor-toggle servomechanism,” International Mathematical Journal (Invited Paper), vol. 3, no. 12, pp. 1321-1339, December 2003. (NSC 90-2213-E-155-014)
  [119]   R. J. Wai and J. M. Chang, “Implementation of robust wavelet-neural-network sliding-mode control for induction servo motor drive,” IEEE Transactions on Industrial Electronics, vol. 50, no. 6, pp. 1317-1334, December 2003. (NSC 90-2213-E-155-003, SCI & EI)
  [120]   R. J. Wai and L. W. Liu, “High-efficiency fuel cell power-conditioning mechanism,” Electron Technology Information Magazine (Invited Paper), vol. 35, pp. 42-47, November 2003. (91-EC-17-A-05-S1-0012, NSC 91-2745-P-155-004)
  [121]   R. J. Wai and W. K. Liu, “Nonlinear control for linear induction motor servo drive,” IEEE Transactions on Industrial Electronics, vol. 50, no. 5, pp. 920-935, October 2003. (NSC 90-2213-E-155-003, SCI & EI)
  [122]   R. J. Wai, “Robust fuzzy neural network control for nonlinear motor-toggle servomechanism,” Fuzzy Sets and Systems, vol. 139, no. 1, pp. 185-208, October 2003. (NSC 90-2213-E-155-003, SCI & EI)
  [123]   R. J. Wai, R. Y. Duan, J. D. Lee and H. H. Chang, “Wavelet neural network control for induction motor drive using sliding-mode design technique,” IEEE Transactions on Industrial Electronics, vol. 50, no. 4, pp. 733-748, August 2003. (NSC 90-2213-E-155-003, SCI & EI)
  [124]   R. J. Wai, “Robust control of linear ceramic motor drive with LLCC resonant technique,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 50, no. 7, pp. 911-920, July 2003. (NSC 91-2213-E-155-063, SCI & EI)
  [125]   F. J. Lin and R. J. Wai, “Adaptive and fuzzy neural network sliding-mode controllers for motor-quick-return servomechanism,” Mechatronics, vol. 13, no. 5, pp. 477-506, June 2003. (NSC 89-2213-E-033-048, SCI & EI)
  [126]   R. J. Wai, “Robust control for nonlinear motor-mechanism coupling system using wavelet neural network,” IEEE Transactions on Systems, Man and Cybernetics, Part B: Cybernetics, vol. 33, no. 3, pp. 489-497, June 2003. (NSC 90-2213-E-155-014, SCI & EI)
  [127]   F. J. Lin, R. J. Wai and M. P. Chen, “Wavelet neural network control for linear ultrasonic motor drive via adaptive sliding-mode technique,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 50, no. 6, pp. 686-698, June 2003. (SCI & EI)
  [128]   R. J. Wai, C. M. Lin and Y. F. Peng, “Robust CMAC neural network control for LLCC-resonant driving linear piezoelectric ceramic motor,” IEE Proceedings ? Control Theory Applications, vol. 150, no. 3, pp. 221-232, May 2003. (NSC 91-2213-E-155-063, SCI & EI)
  [129]   R. J. Wai, C. M. Lin and C. F. Hsu, “Direct fuzzy control for nonlinear servomechanism using adaptive tuning algorithm,” International Journal of Computational Cognition (Invited Paper), vol. 1, no. 1, pp. 79-103, March 2003. (NSC 90-2213-E-155-014)
  [130]   R. J. Wai and C. J. Chang, “Tracking control based on neural network strategy for robot manipulator,” Neurocomputing, vol. 51, pp. 425-445, March 2003. (NSC 90-2213-E-155-014, SCI & EI)
  [131]   R. J. Wai, “Supervisory genetic evolution control for indirect field-oriented induction motor drive,” IEE Proceedings ? Electric Power Applications, vol. 150, no. 2, pp. 215-226, March 2003. (NSC 90-2213-E-155-003, SCI & EI)
  [132]   R. J. Wai, “Development of intelligent position control system using optimal design technique,” IEEE Transactions on Industrial Electronics, vol. 50, no. 1, pp. 218-231, February 2003. (NSC 90-2213-E-155-003, SCI & EI)
  [133]   R. J. Wai, K. Y. Hsieh and C. M. Lin, “Robust fuzzy neural network control for n-link robot manipulator,” Journal of The Chinese Institute of Electrical Engineering, vol. 10, no. 1, pp. 21-32, February 2003. (NSC 90-2213-E-155-014, EI)
  [134]   F. J. Lin and R. J. Wai, “Robust recurrent fuzzy neural network control for linear synchronous motor drive system,” Neurocomputing, vol. 50, pp. 365-390, January 2003. (NSC 89-2213-E-155-052, SCI & EI)
  [135]   R. J. Wai, “Development of new training algorithms for neuro-wavelet systems on the robust control of induction servo motor drive,” IEEE Transactions on Industrial Electronics, vol. 49, no. 6, pp. 1323-1341, December 2002. (NSC 90-2213-E-155-003, SCI & EI)
  [136]   F. J. Lin and R. J. Wai, “Adaptive fuzzy-neural-network control for induction spindle motor drive,” IEEE Transactions on Energy Conversion, vol. 17, no. 4, pp. 507-513, December 2002. (NSC 89-2213-E-033-094, SCI & EI)
  [137]   R. J. Wai, C. M. Lin and C. F. Hsu, “Hybrid control for induction servo motor drive,” IEE Proceedings ? Control Theory Applications, vol. 149, no. 6, pp. 555-563, November 2002. (NSC 90-2213-E-155-003, SCI & EI)
  [138]   R. J. Wai and L. J. Chang, “Decoupling and tracking control of induction motor drive,” IEEE Transactions on Aerospace and Electronic Systems, vol. 38, no. 4, pp. 1357-1369, October 2002. (NSC 90-2213-E-155-003, SCI & EI)
  [139]   F. J. Lin and R. J. Wai, “Hybrid computed torque controlled motor-toggle servomechanism using fuzzy neural network uncertainty observer,” Neurocomputing, vol. 48, no. 4, pp. 403-422, October 2002. (NSC 89-2213-E-033-048, SCI & EI)
  [140]   R. J. Wai, C. M. Lin and C. F. Hsu, “Self-organizing fuzzy control for motor-toggle servomechanism via sliding-mode technique,” Fuzzy Sets and Systems, vol. 131, no. 2, pp. 235-249, October 2002. (NSC 90-2213-E-155-014, SCI & EI)
  [141]   R. J. Wai, “Hybrid fuzzy neural-network control for nonlinear motor-toggle servomechanism,” IEEE Transactions on Control Systems Technology, vol. 10, no. 4, pp. 519-532, July 2002. (NSC 90-2213-E-155-014, SCI & EI)
  [142]   C. M. Lin, C. F. Hsu, N. C. Lee and R. J. Wai, “Fuzzy-logic-based guidance laws for homing missiles,” Journal of The Chinese Institute of Electrical Engineering, vol. 9, no. 2, pp. 159-164, May 2002. (EI)
  [143]   F. J. Lin and R. J. Wai, “Robust control using neural network uncertainty observer for linear induction motor servo drive,” IEEE Transactions on Power Electronics, vol. 17, no. 2, pp. 241-254, March 2002. (NSC 89-2213-E-033-047, SCI & EI)
  [144]   F. J. Lin, R. J. Wai, W. D. Chou and S. P. Hsu, “Adaptive backstepping control using recurrent neural network for linear induction motor drive,” IEEE Transactions on Industrial Electronics, vol. 49, no. 1, pp. 134-146, February 2002. (NSC 89-2213-E-033-048, SCI & EI)
  [145]   R. J. Wai, F. J. Lin, R. Y. Duan, K. Y. Hsieh and J. D. Lee, “Robust fuzzy neural network control for linear ceramic motor drive via backstepping design technique,” IEEE Transactions on Fuzzy Systems, vol. 10, no.1, pp. 102-112, February 2002. (NSC 90-2213-E-155-014, SCI & EI)
  [146]   R. J. Wai and J. M. Chang, “Intelligent control of induction servo motor drive via wavelet neural network,” Electric Power Systems Research, vol. 61, no. 1, pp. 67-76, January 2002. (NSC 89-2218-E-155-011, EI, IF: 0.128)
  [147]   F. J. Lin, K. K. Shyu and R. J. Wai, “Recurrent-fuzzy-neural-network sliding-mode controlled motor-toggle servomechanism,” IEEE Transactions on Mechatronics, vol. 6, no. 4, pp. 453-466, December 2001. (NSC 89-2213-E-155-052, SCI & EI)
  [148]   R. J. Wai, “Total sliding-mode controller for PM synchronous servo motor drive using recurrent fuzzy neural network,” IEEE Transactions on Industrial Electronics, vol. 48, no. 5, pp. 926-944, October 2001. (NSC 89-2213-E-155-052, SCI & EI)
  [149]   R. J. Wai and F. J. Lin, “Adaptive recurrent-neural-network control for linear induction motor,” IEEE Transactions on Aerospace and Electronic Systems, vol. 37, no. 4, pp. 1176-1192, October 2001. (NSC 89-2213-E-155-052, SCI & EI)
  [150]   F. J. Lin, R. J. Wai and C. M. Hong, “Identification and control of rotary travelling-wave type ultrasonic motor using neural networks,” IEEE Transactions on Control Systems Technology, vol. 9, no. 4, pp. 672-680, July 2001. (NSC 88-2213-E-033-025, SCI & EI)
  [151]   F. J. Lin, R. J. Wai, K. K. Shyu and T. M. Liu, “Recurrent fuzzy neural network control for piezoelectric ceramic linear ultrasonic motor drive,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 48, no. 4, pp. 900-914, July 2001. (NSC 89-2213-E-033-081, SCI & EI)
  [152]   R. F. Fung, F. J. Lin and R. J. Wai, “Quick-return servomechanism with adaptive fuzzy neural network control,” ASME Journal of Dynamic Systems, Measurement, and Control, vol. 123, no. 2, pp. 253-264, June 2001. (SCI & EI)
  [153]   R. J. Wai, “Robust control for induction servo motor drive,” IEE Proceedings ? Electric Power Applications, vol. 148, no. 3, pp. 279-286, May 2001. (NSC 89-2218-E-155-011, SCI & EI)
  [154]   R. J. Wai and W. K. Liu, “Nonlinear decoupled control for linear induction motor servo-drive using the sliding-mode technique,” IEE Proceedings ? Control Theory Applications, vol. 148, no. 3, pp. 217-231, May 2001. (NSC 89-2213-E-155-052, SCI & EI)
  [155]   R. J. Wai, F. J. Lin and S. P. Hsu, “Intelligent backstepping control for linear induction motor drive,” IEE Proceedings ? Control Theory Applications, vol. 148, no. 3, pp. 193-202, May 2001. (NSC 89-2213-E-155-052, SCI & EI)
  [156]   F. J. Lin and R. J. Wai, “A hybrid computed torque controller using fuzzy neural network for motor-quick-return servomechanism,” IEEE Transactions on Mechatronics, vol. 6, no. 1, pp. 75-89, March 2001. (NSC 89-2213-E-033-047, SCI & EI)
  [157]   R. F. Fung, F. J. Lin, R. J. Wai and P. Y. Lu, “Fuzzy neural network control of a motor-quick-return servomechanism,” Mechatronics, vol. 10, no. 1-2, pp. 145-167, February 2001. (NSC 88-2212-E-033-002, SCI & EI)
  [158]   R. J. Wai, “Hybrid control for speed sensorless induction motor drive,” IEEE Transactions on Fuzzy Systems, vol. 9, no. 1, pp. 116-138, February 2001. (NSC 89-2218-E-155-011, SCI & EI)
  [159]   F. J. Lin and R. J. Wai, “Hybrid control using recurrent fuzzy neural network for linear-induction motor servo drive,” IEEE Transactions on Fuzzy Systems, vol. 9, no. 1, pp. 102-115, February 2001. (NSC 89-2213-E-033-047, SCI & EI)
  [160]   R. J. Wai, C. H. Lin and F. J. Lin, “Adaptive fuzzy neural network control for motor-toggle servomechanism,” Mechatronics, vol. 11, no. 1, pp. 95-117, February 2001. (NSC 89-2213-E-033-048, SCI & EI)
  [161]   F. J. Lin and R. J. Wai, “Sliding-mode controlled slider-crank mechanism with fuzzy neural network” IEEE Transactions on Industrial Electronics, vol. 48, no. 1, pp. 60-70, February 2001. (NSC 87-2213-E-033-015, SCI & EI)
  [162]   F. J. Lin, R. J. Wai and C. M. Hong, “Hybrid supervisory control using recurrent fuzzy neural network for tracking periodic inputs,” IEEE Transactions on Neural Networks, vol. 12, no. 1, pp. 68-90, January 2001. (NSC 89-2213-E-033-048, SCI & EI)
  [163]   C. M. Lin, J. F. Shiu, S. K. Chang and R. J. Wai, “Guidance laws evaluation for missile guidance systems,” Asian Journal of Control, vol. 2, no. 4, pp. 243-250, December 2000. (NSC 89-2213-E-155-041)
  [164]   R. J. Wai, “Adaptive sliding-mode control for induction servomotor drive,” IEE Proceedings ? Electric Power Applications, vol. 147, no. 6, pp. 553-562, November 2000. (NSC 89-2213-E-155-052, SCI & EI)
  [165]   R. J. Wai, H. H. Lin and F. J. Lin, “Hybrid controller using fuzzy neural networks for identification and control of induction servo motor drive,” Neurocomputing, vol. 35, no. 4, pp. 91-112, November 2000. (NSC 89-2213-E-033-015, SCI & EI)
  [166]   F. J. Lin, R. J. Wai and C. M. Hong, “Recurrent neural network control for LCC-resonant ultrasonic motor drive,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 47, no. 3, pp. 737-749, May 2000. (SCI & EI)
  [167]   F. J. Lin, R. J. Wai, C. H. Lin and D. C. Liu, “Decoupled stator-flux-oriented induction motor drive with fuzzy neural network uncertainty observer” IEEE Transactions on Industrial Electronics, vol. 47, no. 2, pp. 356-367, April 2000. (NSC 87-2213-E-033-015, SCI & EI)
  [168]   R. J. Wai, D. C. Liu and F. J. Lin, “Rotor time-constant estimation approaches based on energy function and sliding mode for induction motor drive,” Electric Power Systems Research, vol. 52, no. 3, pp. 229-239, December 1999. (NSC 87-2213-E-033-015, SCI & EI)
  [169]   R. J. Wai, F. J. Lin and K. K. Shyu, “A toggle mechanism servo system with variable structure model-following control,” International Journal of Systems Science, vol. 30, no. 11, pp. 1213-1225, November 1999. (SCI & EI)
  [170]   F. J. Lin, R. J. Wai and R. Y. Duan, “Fuzzy neural networks for identification and control of ultrasonic motor drive with LLCC resonant technique,” IEEE Transactions on Industrial Electronics, vol. 46, no. 5, pp. 999-1011, October 1999. (NSC 87-2213-E-033-014, SCI & EI)
  [171]   F. J. Lin, R. Y. Duan, R. J. Wai and C. M. Hong, “LLCC resonant inverter for piezoelectric ultrasonic motor drive,” IEE Proceedings ? Electric Power Applications, vol. 146, no. 5, pp. 479-487, September 1999. (NSC 87-2213-E-033-014, SCI & EI)
  [172]   F. J. Lin, K. K. Shyu and R. J. Wai, “DSP-based minmax speed sensorless induction motor drive with sliding mode model-following speed controller,” IEE Proceedings ? Electric Power Applications, vol. 146, no. 5, pp. 471-478, September 1999. (NSC 86-2213-E-033-013, SCI & EI)
  [173]   F. J. Lin, R. J. Wai and R. Y. Duan, “Neural network controller for parallel-resonant ultrasonic motor drive,” IEEE Transactions on Control Systems Technology, vol. 7, no. 4, pp. 494-501, July 1999. (NSC 86-2213-E-033-044, SCI & EI)
  [174]   F. J. Lin, R. J. Wai and H. H. Lin, “An adaptive fuzzy-neural-network controller for ultrasonic motor drive using LLCC resonant technique,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 46, no. 3, pp. 715-727, May 1999. (NSC 87-2213-E-033-014, SCI & EI)
  [175]   R. J. Wai and F. J. Lin, “Fuzzy neural network sliding mode position controller for induction servo motor drive,” IEE Proceedings ? Electric Power Applications, vol. 146, no. 3, pp. 297-308, May 1999. (SCI & EI)
  [176]   F. J. Lin, R. J. Wai and P. C. Lin, “Robust speed sensorless induction motor drive,” IEEE Transactions on Aerospace and Electronic Systems, vol. 35, no. 2, pp. 566-578, April 1999. (NSC 87-2213-E033-015, SCI & EI)
  [177]   F. J. Lin, W. J. Hwang and R. J. Wai, “A supervisory fuzzy neural network control system for tracking periodic inputs,” IEEE Transactions on Fuzzy Systems, vol. 7, no.1, pp. 41-52, February 1999. (SCI & EI)
  [178]   F. J. Lin, R. J. Wai and C. C. Lee, “Fuzzy neural network position controller for ultrasonic motor drive using push-pull DC-DC converter,” IEE Proceedings ? Control Theory Applications, vol. 146, no. 1, pp. 99-107, January 1999. (NSC 87-2213-E-033-014, SCI & EI)
  [179]   F. J. Lin, R. J. Wai and H. P. Chen, “A PM synchronous servo motor drive with an on-line trained fuzzy neural network controller,” IEEE Transactions on Energy Conversion, vol. 13, no. 4, pp. 319-325, December 1998. (NSC 85-2213-E-033-036, SCI & EI)
  [180]   F. J. Lin, R. F. Fung and R. J. Wai, “Comparison of sliding mode and fuzzy neural network control for motor-toggle servomechanism,” IEEE Transactions on Mechatronics, vol. 3, no. 4, pp. 302-318, December 1998. (NSC 86-2213-E-033-013, SCI & EI)
  [181]   F. J. Lin, R. J. Wai and S. L. Wang, “A fuzzy neural network controller for parallel-resonant ultrasonic motor drive,” IEEE Transactions on Industrial Electronics, vol. 45, no. 6, pp. 928-937, December 1998. (NSC 87-2213-E-033-014, SCI & EI)
  [182]   F. J. Lin, R. J. Wai and H. J. Shieh, “Robust control of induction motor drive with rotor time-constant adaptation,” Electric Power Systems Research, vol. 47, no. 1, pp. 1-9, October 1998. (SCI & EI)
  [183]   R. J. Wai and F. J. Lin, “A fuzzy neural network controller with adaptive learning rates for nonlinear slider-crank mechanism,” Neurocomputing, vol. 20, no. 1-3, pp. 295-320, August 1998. (SCI & EI)
  [184]   F. J. Lin and R. J. Wai, “Hybrid controller using a neural network for a PM synchronous motor drive,” IEE Proceedings ? Electric Power Applications, vol. 145, no. 3, pp. 223-230, May 1998. (NSC 85-2213-E-033-036, SCI & EI)
  [185]   F. J. Lin and R. J. Wai, “Fuzzy neural network model-following controller for ultrasonic motor servo drives,” Journal of The Chinese Institute of Electrical Engineering, vol. 5, no. 2, pp. 133-142, May 1998. (NSC 84-2213-E-033-044, EI)
  [186]   F. J. Lin, W. J. Hwang and R. J. Wai, “Ultrasonic motor servo drive with on-line trained neural network model-following controller,” IEE Proceedings ? Electric Power Applications, vol. 145, no. 2, pp. 105-110, March 1998. (NSC 86-2213-E-033-044, SCI & EI)
  [187]   F. J. Lin, R. J. Wai, R. H. Kuo and D. C. Liu, “A comparative study of sliding mode and model reference adaptive speed observers for induction motor drive,” Electric Power Systems Research, vol. 44, no. 3, pp. 163-174, March 1998. (NSC 86-2213-E-033-013, SCI & EI)
  [1]   J. Zhang and R. J. Wai, “Novel space-vector pulse-width-modulation mechanism for three-level neutral-point-clamped Z-source inverter,” Int. Conf. Intelligent Green Building and Smart Grid (IGBSG 2019), pp. 1-5, September 2019. (MOST 106-2221-E-011-028 -MY2)
  [2]   R. J. Wai and Z. F. Zhang, “Design of high-efficiency single-input triple-outputs DC-DC converter,” Int. Conf. Intelligent Green Building and Smart Grid (IGBSG 2019), pp. 1-5, September 2019. (MOST 106-2221-E-011-028 -MY2)
  [3]   Z. S. Lv, K. H. Lou, and R. J. Wai, “Harmonic threshold estimation for identification of abnormal data,” Int. Conf. Intelligent Green Building and Smart Grid (IGBSG 2019), pp. 1-5, September 2019. (MOST 106-2221-E-011-028 -MY2)
  [4]   S. P. Qiao, G. Wei, R. J. Wai, and M. F. Guo “A method of mechanical fault feature extraction for high-voltage circuit breaker via CEEMDAN and weighted time-frequency entropy,” Int. Conf. Intelligent Green Building and Smart Grid (IGBSG 2019), pp. 1-5, September 2019. (MOST 106-2221-E-011-028 -MY2)
  [5]   R. J. Wai and Z. F. Zhang, “Comprehensive power-saving diagnoses and data analyses,” International Conference on Advanced Technology Innovation 2019 (ICATI2019), pp. 1-10, July 2019. (MOST 106-2221-E-011-028 -MY2)
  [6]   R. J. Wai, K. W. Buu, and Y. Wang, “Policy Promotion of PV installation leasing process in Taiwan's education system and future development,” International Conference on Energy, Resources, Environment and Sustainable Development (ERESD2019), pp. 1-4, June 2019. (MOST 106-2221-E-011-028 -MY2)
  [7]   R. J. Wai, T. H. Hu, and Q. Q. Zhang, “Energy-saving diagnostic mechanism and benefit analyses of air conditioners via actual environmental measurement and evaluation,” International Conference on Energy, Resources, Environment and Sustainable Development (ERESD2019), pp. 1-4, June 2019. (MOST 106-2221-E-011-028 -MY2)
  [8]   R. J. Wai and Z. F. Zhang, “Design of high-efficiency isolated bidirectional DC/DC converter,” IEEE International Conference on Applied System Innovation (ICASI 2019), pp. 1-6, April 2019. (MOST 106-2221-E-011-028 -MY2)
  [9]   R. J. Wai and Y. Wang, “New power decoupling strategy for grid-connected inverter under weak power grid,” International Conference on Green Energy and Smart Grids,pp. 1-6, August 2018. (MOST 107-3113-E-011-001)
  [10]   R. J. Wai and Q. Q. Zhang, “Design of voltage stabilization and power sharing control method via virtual complex impedance,” Int. Conf. Intelligent Green Building and Smart Grid (IGBSG 2018), pp. 1-4, April 2018.(Best Paper Award,MOST 107-3113-E-011-001)
  [11]   R. J. Wai and Y. Wang, “Power decoupling strategy for single-phase grid-connected inverter under weak power grid,” Int. Conf. Intelligent Green Building and Smart Grid (IGBSG 2018), pp. 1-4, April 2018.(Best Paper Award, MOST 107-3113-E-011-001)
  [12]   Y. Yang, R. J. Wai, and Y. Q. Wang, “Design of backstepping control for direct power control of three phase voltage source PWM rectifier,” Int. Conf. Intelligent Green Building and Smart Grid (IGBSG 2018), pp. 1-4, April 2018.(Best Paper Award,MOST 107-3113-E-011-001)
  [13]   R. J. Wai, “Installation capacity evaluation mechanism for renewable energy generation system in micro-grid,” IEEE International Conference on Applied System Innovation (ICASI 2018), pp. 1-4, April 2018. (MOST 107-3113-E-011-001)
  [14]   C. P. Lin and R. J. Wai, “Newly-design energy saving diagnosis method of scene lighting”, R.O.C. Symposium on Electrical Power Engineering, pp. 1-4, December 2017.
  [15]   Q. T. Chou, Z. W. Zheng, and R. J. Wai, “Power system diagnosis and data analysis system”, R.O.C. Symposium on Electrical Power Engineering, pp. 1-5, December 2017.
  [16]   S. Cheng, Y. C. Feng, T. L. Huang, and R. J. Wai, “Optimal planning of hybrid energy generation system in the microgrid considering direct load control,” 2017 International Conference on Fuzzy Theory and Its Applications, accept for publication, November 2017.
  [17]   M. Xu, R. J. Wai, and Z. X. Zhong, “Reachable set estimation for large-scale fuzzy systems with time-varying delay and input constraint,” 2017 International Conference on Fuzzy Theory and Its Applications, accept for publication, November 2017.
  [18]   Z. F. Zhang, W. Z. Chen, and R. J. Wai, “Design of high step-up driving circuit for linear ultrasonic motor,” IEEE International Conference on Applied System Innovation (ICASI 2017), pp. 1347-1350, May 2017. (Best Paper Award, MOST 104-2221-E-011-172-MY3)
  [19]   R. J. Wai, I. C. Hung, R. Chen, and D. Wu, “Technical development trend of rental electric vehicle patents”, R.O.C. Symposium on Electrical Power Engineering, pp. 1-5, December 2016. (104-EC-17-A-02-S2-001)
  [20]   R. J. Wai, M. W. Chen, R. Chen, and D. Wu, “Development of IOT management and service platform technique for electric scooter”, R.O.C. Symposium on Electrical Power Engineering, pp. 1-5, December 2016. (104-EC-17-A-02-S2-001)
  [21]   R. J. Wai, Y. K. Liu, and R. Chen, “Adaptive fuzzy-neural-network control for boost inverter,” International Conference on Machine Learning and Cybernetics, pp. 976-983, July 2016. (MOST 104-2221-E-011-172-MY3)
  [22]   R. J. Wai and J. J. Liaw, “High-efficiency step-down converter via coupled inductor”, IEEE International Power Electronics and Motion Control Conference, pp. 1-6, May 2016. (MOST 104-2221-E-011-172-MY3)
  [23]   B. Y. Lee and R. J. Wai, “Systematic design of proportional-integral voltage control for Z-source inverter”, R.O.C. Symposium on Electrical Power Engineering, pp. 1-6, December 2015. (MOST 104-2221-E-011-172-MY3)
  [24]   R. J. Wai and J. J. Liaw, “Design of high-efficiency isolated bidirectional converter,” IEEE International Future Energy Electronics Conference (IFEEC 2015), pp. 1-6, November 2015. (MOST 104-2221-E-011-172-MY3)
  [25]   R. J. Wai and Y. K. Liu, “Design of fuzzy neural network control for single-stage boost inverter,” International Conference on Machine Learning and Cybernetics, pp. 560-565, July 2015. (NSC 101-2221-E-155-043-MY3)
  [26]   R. J. Wai and Y. K. Liu, “Design of adaptive voltage control for single-stage boost inverter,” Asian Control Conference, pp. 1-6, June 2015. (NSC 101-2221-E-155-043-MY3)
  [27]   R. J. Wai, H. Y. Ting, and C. H. Yu, “Fuzzy-neural-network inherited total sliding-mode control for robot manipulator,” International Conference on Applied System Innovation (ICASI 2015), pp. 64, May 2015. (Best Paper Award, NSC 98-2221-E-155-057-MY3, NSC 101-2221-E-155-043-MY3)
  [28]   C. C. Liao, Y. F. Lin and R. J. Wai, “Automatic detection design and electromagnetic shielding effectiveness of synthetic graphite sheets,” International Conference on Applied System Innovation (ICASI 2015), pp. 88, May 2015. (MOST 103-2221-E-231-008)
  [29]   R. J. Wai, J. X. Yao, and J. D. Lee, “Design of backstepping fuzzy-neural-network control for hybrid maglev transportation system,” International Conference on Advanced Computational Intelligence (ICACI 2015), pp. 38-43, March 2015. (NSC 97-2221-E-155-065-MY2, NSC 102-3113-P-155-001)
  [30]   R. J. Wai, Y. C. Huang, B. R. Chen, and H. Y. Chao, “Research of operational policy optimization for air conditioners in campus”, R.O.C. Symposium on Electrical Power Engineering, pp. 1-5, December 2014. (NSC 102-3113-P-155-001)
  [31]   R. J. Wai and L. S. Hong, “High-efficiency bidirectional single-input multiple-output converter,” International Conference on Engineering and Applied Science, pp. 1350-1363, July 2014. (NSC 101-2221-E-155-043-MY3, NSC 102-3113-P-155-001)
  [32]   R. J. Wai and L. S. Hong, “Design of high-efficiency dual-input converter with internal charge circuit” IEEE International Conference on Industrial Technology, pp. 223-228, February 2014. (NSC 101-2221-E-155-043-MY3, NSC 102-3113-P-155-001)
  [33]   R. J. Wai and R. Muthusamy, “Fuzzy-neural-network inherited backstepping control for robot manipulator” IEEE International Conference on Industrial Technology, pp. 1-6, February 2014. (NSC 98-2221-E-155-057-MY3, NSC 102-3113-P-155-001)
  [34]   R. Y. Duan, B. H. Chen, and R. J. Wai, “Design of high-efficiency dual-input interleaved DC-DC converter” IEEE International Conference on Industrial Technology, pp. 241-246, February 2014. (NSC 102-2221-E-241-008, NSC 102-3113-P-155-001)
  [35]   R. J. Wai, Y. W. Lin, Y. C. Lee, T. H. Ho, and P. J. Chen, “Intelligent solar power generation forecasting”, R.O.C. Symposium on Electrical Power Engineering, pp. 23-28, December 2013. (NSC 102-3113-P-155-001)
  [36]   R. J. Wai, Y. W. Lin, C. Y. Lin, Y. C. Lee, T. H. Ho, and P. J. Chen, “Intelligent multi-objective management and power monitoring”, R.O.C. Symposium on Electrical Power Engineering, pp. 29-33, December 2013. (NSC 102-3113-P-155-001)
  [37]   R. J. Wai and S. J. Jhung, “Design of intelligent optimal energy management system for hybrid power sources,” Asian Control Conference, pp. 1-6, June 2013. (NSC 101-3113-E-155-001, NSC 101-2221-E-155-043-MY3)
  [38]   R. J. Wai and R. Muthusamy, “Fuzzy-neural-network control for robot manipulator via sliding-mode design,” Asian Control Conference, pp. 1-6, June 2013. (NSC 98-2221-E-155-057-MY3)
  [39]   R. J. Wai and S. J. Jhung, “High-efficiency adaptive fast-charging mechanism of Li-FePO4 battery module for electric vehicle application,” IEEE International Conference on Industrial Technology, pp. 533-538, February 2013. (NSC 98-2218-E-155-001, NSC 101-2221-E-155-043-MY3)
  [40]   C. M. Lin, R. G. Yeh, C. F. Hsu, and R. J. Wai, “Online tuning fuzzy sliding-mode controller design for piezoelectric ceramic ultrasonic motors” IEEE International Conference on Industrial Technology, pp. 130-133, February 2013. (NSC 98-2221-E-155-059-MY3)
  [41]   R. J. Wai and J. J. Liaw, “Design of clock and ramp generator circuit framework with 0.9V low operational voltage,” International Conference on Engineering and Technology Innovation, C1022, pp. 39, November 2012. (NSC 98-2623-E-155-001-ET)
  [42]   R. J. Wai, L. N. Huang, C. S. Lin, and C. T. Cheng, “Intelligent stand-alone power supply and grid-connected system of hybrid energy”, Cross-Strait Climate Change and Energy Sustainable Development Seminar, pp. 85-98, October 2012.
  [43]   R. J. Wai, Y. C. Huang, F. I. Peng, and Y. W. Lin, “Optimal power requirement analysis and user pays policy design-Yuan Ze University in Taiwan”, Cross-Strait Climate Change and Energy Sustainable Development Seminar, pp. 662-674, October 2012.
  [44]   R. J. Wai and K. H. Jheng, “Design of high-efficiency single-input multiple-output DC-DC converter with high voltage gain,” Taiwan Power Electronics Conference, PID350, September 2012. (NSC 101-2221-E-155-043-MY3, NSC 101-3113-E- 155-001)
  [45]   R. J. Wai, Y. W. Lin, and L. C. Shih, “Design of adaptive fuzzy-neural-network control for DC-DC boost converter,” IEEE International Joint Conference on Neural Networks (IJCNN), pp. 1402-1407, June 2012. (NSC 101-3113-E-155-001)
  [46]   R. J. Wai, Y. C. Huang, and Y. C. Chen, “Intelligent daily load forecasting with fuzzy neural network and particle swarm optimization,” IEEE Conference on Fuzzy Systems (FUZZ-IEEE), pp. 388-393, June 2012. (1002001INER065 & NSC 101-3113-E-155-001)
  [47]   R. J. Wai, Y. C. Huang, and Y. C. Chen, “Design of intelligent long-term load forecasting with fuzzy neural network and particle swarm optimization,” International Conference on Machine Learning and Cybernetics, pp. 1644-1650, June 2012. (NSC 101-3113-E-155-001)
  [48]   R. J. Wai, Y. W. Lin, and C. Y Lin, “Design of dual active low-frequency ripple control for clean-energy power conditioner”, IEEE International Symposium on Industrial Electronics (ISIE 2012), pp. 303-308, May 2012. (NSC 100-3113-E-155-001)
  [49]   R. J. Wai, Y. S. Chiou, Y. C. Huang, L. N. Huang, and Y. C. Chang, “Intelligent power monitoring and control system”, R.O.C. Symposium on Electrical Power Engineering, pp. 182-186, December 2011.
  [50]   R. J. Wai, C. Y. Lin, Y. S. Chiou, L. N. Huang, and Y. C. Chang, “High-efficiency fuel cell power generation system”, R.O.C. Symposium on Electrical Power Engineering, pp. 187-191, December 2011. (NSC 100-3113-E-155-001)
  [51]   R. J. Wai and J. J. Liaw, “Newly-design clock and ramp generator circuit framework with 0.9V low operational voltage”, R.O.C. Symposium on Electrical Power Engineering, pp. 2168-2172, December 2011. (NSC 98-2623-E-155-001-ET)
  [52]   R. J. Wai, Y. C. Huang, and Y. C. Chen, “Campus energy-saving technology and energy management system: Yuan Ze University,” Green Energy Conference, pp. 1-6, October 2011.
  [53]   R. J. Wai and C. M. Liu, “Adaptive path planning for mobile robot obstacle avoidance,” International Conference on Computer, Electrical, and Systems Sciences, and Engineering, pp. 107-112, July 2011. (NSC 99-2218-E-155-001)
  [54]   R. J. Wai and L. Z. Shin, “Total sliding-mode voltage tracking control for DC-DC boost converter,” IEEE Conference on Industrial Electronics and Applications (ICIEA2011), pp. 2670-2675, June 2011. (NSC 99-2218-E-155-001)
  [55]   R. J. Wai, S. Cheng, and Y. C. Chen, “Installed capacity optimization of hybrid energy generation system,” IEEE Conference on Industrial Electronics and Applications (ICIEA2011), pp. 2676-2681, June 2011. (NSC 100-3113-E-155-001)
  [56]   R. J. Wai, Y. C. Chen and Y. R. Chang, “Short-term load forecasting via fuzzy neural network with varied learning rates,” IEEE Conference on Fuzzy Systems (FUZZ-IEEE 2011), pp. 2426-2431, June 2011.
  [57]   R. J. Wai, C. Y. Lin, B. H. Chen, K. K. Jen, and Y. M. Liao, “High-efficiency dual-input DC-DC converter,” Taiwan Power Electronics Conference, pp. 1022-1027, September 2010. (CSIST-954-V101)
  [58]   R. J. Wai, C. Y. Lin, K. H. Jheng, R. Y. Duan, K. K. Jen, and Y. M. Liao, “High-efficiency bidirectional DC-DC converter,” Taiwan Power Electronics Conference, pp. 1028-1032, September 2010. (CSIST-954-V101)
  [59]   R. J. Wai, C. Y. Lin, C. Y. Lin, K. K. Jen, and Y. M. Liao, “High-performance DC/AC inverter,” Taiwan Power Electronics Conference, pp. 1016-1021, September 2010. (CSIST-954-V101)
  [60]   R. J. Wai, J. J. Liaw, C. Y. Lin, and R. Y. Duan, “High-efficiency and high step-up DC/DC converter for solid oxide fuel cell with functions of power generation and hydrogen production,” Taiwan Power Electronics Conference, pp. 807-811, September 2010. (NSC 98-3114-E-155-001)
  [61]   R. J. Wai, Y. C. Chen, L. N. Huang, Y. C. Chang, and C. G. Lin, “Optimization design for installation capacity of hybrid energy generation system”, Cross-Strait Climate Change and Energy Sustainable Development Seminar, pp. 38, August 2010.
  [62]   R. J. Wai, L. N. Huang, Y. C. Chen, Y. C. Chang, and C. G. Lin, “User demand analysis of hybrid energy generation system”, Cross-Strait Climate Change and Energy Sustainable Development Seminar, pp. 40, August 2010.
  [63]   R. J. Wai and C. M. Liu, “Design of dynamic Petri recurrent-fuzzy-neural-network for robust path tracking control of mobile robot,” IEEE International Joint Conference on Neural Networks (IJCNN), pp. 1539-1546, July 2010. (NSC 97-2221-E-155-065-MY2)
  [64]   Y. F. Peng, H. W. Lai, C. H. Chiu, and R. J. Wai, “Robust recurrent wavelet-based CMAC control for uncertain nonlinear systems with Hinf tracking performance,” IEEE International Joint Conference on Neural Networks (IJCNN), pp. 3563-3570, July 2010. (NSC 97-2221-E-231-004)
  [65]   R. J. Wai, Z. W. Yang, and C. Y. Shih, “Direct adaptive fuzzy-neural-network control for robot manipulator by using only position measurements,” IEEE Conference on Industrial Electronics and Applications (ICIEA2010), pp. 689-694, June 2010. (NSC 98-2221-E-155-057-MY3)
  [66]   R. J. Wai and C. Y. Lin, “Development of active low-frequency current ripple control for clean-energy power conditioner,” IEEE Conference on Industrial Electronics and Applications (ICIEA2010), pp. 695-700, June 2010. (NSC 97-2623-7-155-002-ET)
  [67]   R. J. Wai, Y. C. Huang, L. X. Fang and G. Wu, “Experience sharing of green demonstrative campus: Yuan Ze university,” The 4th Green University Conference, pp. 6.1-6.15, December 2009.
  [68]   R. J. Wai and C. M. Liu, “Experimental verification of dynamic petri recurrent-fuzzy-neural-network path tracking control design for mobile robot,” International Conference on Control and Automation, pp. 1359-1364, December 2009. (NSC 97-3114-E-155-002)
  [69]   R. J. Wai and J. J. Liaw, “Chip design of high-efficiency boost DC/DC converter with low-voltage power supply,” R.O.C. Symposium on Electrical Power Engineering, M001, November 2009. (NSC 98-2623-E-155-001-ET)
  [70]   R. J. Wai and C. Y. Lin, “High-efficiency converter with two input power sources for electric vehicles,” Taiwan Power Electronics Conference, pp. 85-90, September 2009. (NSC 97-3114-E-155-002)
  [71]   R. J. Wai, C. Y. Lin, and J. D. Lee, “A newly-designed multi-input bidirectional converter,” IEEE Int. Electric Machines and Drives Conf., pp. 456-461, May 2009. (NSC 96-2623-7-155-004-NU)
  [72]   J. D. Lee, R. J. Wai, and K. L. Chuang, “Development of real-time PID control for maglev transportation system via particle swarm optimization,” IEEE Int. Electric Machines and Drives Conf., pp. 574-579, May 2009. (NSC 97-2221-E-155-065-MY2)
  [73]   R. J. Wai and Y. C. Chen, “Automatic fuzzy control design for parallel DC-DC converters,” IAENG International Conference on Artificial Intelligence and Applications (ICAIA'09), pp. 230-235, March 2009. (NSC 97-2221-E-155-065-MY2)
  [74]   R. J. Wai and Y. W. Lin, “Design of total sliding-mode control for Chua’s chaotic circuit,” IAENG International Conference on Control and Automation (ICCA'09), pp. 1154-1159, March 2009. (NSC 97-2221-E-155-065-MY2)
  [75]   R. J. Wai and J. J. Liaw, “Precision current sensing circuit for current-mode control IC of boost DC/DC converter,” R.O.C. Symposium on Electrical Power Engineering, pp. 2067-2071, December 2008. (NSC 95-2221-E-155-073-MY3)
  [76]   R. J. Wai and Z. W. Yang, “Design of fuzzy-neural-network tracking control with only position feedback for robot manipulator including actuator dynamics,” IEEE International Conference on Systems, Man, and Cybernetics, pp. 2349-2354, October 2008. (NSC 95-2221-E-155-085)
  [77]   R. J. Wai and K. L. Chuang, “On-line particle-swarm-optimization control for maglev transportation system via backstepping design procedure,” IEEE International Conference on Systems, Man, and Cybernetics, pp. 2355-2360, October 2008. (NSC 95-2221-E-155-085)
  [78]   R. J. Wai, C. Y. Lin, and Y. R. Chang, “High step-up isolated converter with two input power sources (I) – unidirectional power-flow mode,” Taiwan Power Electronics Conference, pp. 511-516, September 2008. (NSC 96-2623-7-155-004-NU)
  [79]   R. J. Wai, C. Y. Lin, and Y. R. Chang, “High step-up isolated converter with two input power sources (II) – bidirectional power-flow mode,” Taiwan Power Electronics Conference, pp. 517-522, September 2008. (NSC 96-2623-7-155-004-NU)
  [80]   R. J. Wai and J. J. Liaw, “Newly-design clock and ramp generator circuit for current-mode control IC of boost DC/DC converter,” Taiwan Power Electronics Conference, pp.1423-1428, September 2008. (NSC 95-2221-E-155-073-MY3)
  [81]   R. J. Wai and Z. W. Yang, “Adaptive fuzzy-neural-network control of robot manipulator using T-S fuzzy model design,” IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), pp. 90-97, June 2008. (NSC 95-2221-E-155-085)
  [82]   R. J. Wai and C. M. Liu, “Design of dynamic petri recurrent-fuzzy-neural- network scheme for mobile robot tracking control,” IEEE International Joint Conference on Neural Networks (IJCNN), pp. 117-124, June 2008. (NSC 95-2221-E-155-085)
  [83]   R. J. Wai, K. L. Chuang, and J. D. Lee, “Supervisory particle-swarm-optimization control design for maglev transportation system,” IEEE Congress on Evolutionary Computation, pp. 97-104, June 2008. (NSC 95-2221-E-155-085)
  [84]   R. J. Wai, C. Y. Lin, and C. M. Liu, “Intelligent high-efficiency single-stage bidirectional conversion control for multi-input power sources-example of hybrid SOFC and battery generation systems,” Institute of Nuclear Energy Research (INER) Research Symposium, pp. 174-179, January 2008. (NSC 96-2623-7-155-004-NU)
  [85]   R. J. Wai and C. Y. Lin, “Active low-frequency ripple control for clean energy power conditioning mechanism” R.O.C. Symposium on Electrical Power Engineering, pp. C01.1-1-C01.1-5, December 2007. (NSC 96-2623-7-155-004-NU)
  [86]   S. H. Chan, A. Su, F. B. Weng, T. L. Yu, J. G. Jung, S. D. Lin, and R. J. Wai, “Development of fuel cell key components at fuel cell center of Yuan Ze University,” Plenary Lecture at 2007 World Renewable Energy Conference-Pacific Rim Region, November 2007.
  [87]   R. J. Wai and J. D. Lee, “Dynamic analyses and stabilizing control of linear magnetic-levitation rail system,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 2213-2218, November 2007. (NSC 95-2221-E-155-085)
  [88]   R. J. Wai, M. A. Kuo, and J. D. Lee, “Design of cascade direct adaptive fuzzy control for two-axis inverted-pendulum servomechanism,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 898-903, November 2007. (NSC 95-2221-E-155-085)
  [89]   R. J. Wai and W. H. Wang, “Design of grid-connected photovoltaic generation system with high step-up converter and sliding-mode inverter control,” IEEE Conference on Control Applications, pp. 1179-1184, October 2007. (NSC 95-2221-E-155-070-MY3)
  [90]   R. J. Wai, K. L. Chuang, and J. D. Lee, “Total sliding-mode-based particle swarm optimization control design for linear induction motor,” IEEE Congress on Evolutionary Computation, pp. 4729-4734, September 2007. (NSC 95-2221-E-155-085)
  [91]   R. J. Wai and J. D. Lee, “Dynamic control of maglev transportation system via adaptive fuzzy-neural-network,” IEEE International Joint Conference on Neural Networks (IJCNN), pp. 569-574, August 2007. (NSC 95-2221-E-155-085)
  [92]   R. J. Wai and J. D. Lee, “Adaptive backstepping levitation control design for linear maglev rail system,” IAENG International Conference on Control and Automation (ICCA'07), pp. 1573-1578, March 2007. (NSC 95-2221-E-155-085)
  [93]   J. Y. Lin, C. Y. Lin, and R. J. Wai, “High-efficiency kw-level power conditioning mechanism for solid-oxide fuel cell” R.O.C. Symposium on Electrical Power Engineering, pp. OA5.3.1-OA5.3.5, December 2006. (NL950206, NSC 94-2623-7-155-007-ET)
  [94]   R. J. Wai, C. Y. Lin, and W. H. Wang, “Novel power control scheme for stand-alone photovoltaic generation system,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 97-102, November 2006. (NSC 95-2221-E-155-070-MY3)
  [95]   R. Y. Duan, C. Y. Lin, and R. J. Wai, “Maximum-power-extraction algorithm for grid-connected PMSG wind generation system,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 4248-4253, November 2006. (NSC 95-2221-E-241-023, NL940246)
  [96]   R. J. Wai, W. H. Wang, and J. Y. Lin, “Grid-connected photovoltaic generation system with adaptive step-perturbation method and active sun tracking scheme,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 224-228, November 2006. (NSC 95-2221-E-155-070-MY3)
  [97]   R. J. Wai and J. D. Lee, “Robust fuzzy-neural-network levitation control design for linear maglev rail system with nonnegative inputs,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 561-566, November 2006. (NSC 95-2221-E-155-085)
  [98]   R. J. Wai, M. A. Kuo, and J. D. Lee, “Adaptive fuzzy sliding-mode control with cascade structure for nonlinear inverted-pendulum servomechanism,” CACS Automatic Control Conference, pp. 643-648, November 2006. (NSC 92-2213-E-155-030, NSC 93-2213-E-155-014, NSC 94-2213-E-155-001)
  [99]   R. J. Wai, C. W. Liang, and C. Y. Lin, “Design of adaptive control system for stable voltage regulation and uniform current distribution of parallel DC-DC converters,” CACS Automatic Control Conference, pp. 951-956, November 2006. (NSC 94-2213-E-155-001)
  [100]   R. J. Wai, J. D. Lee, and C. C. Chu, “Intelligent decoupled control for linear induction motor drive,” IEEE International Joint Conference on Neural Networks (IJCNN), pp. 2430-2436, July 2006. (NSC 94-2213-E-155-001)
  [101]   R. J. Wai, C. H. Tu, and Z. W. Yang, “Lyapunov-based genetic algorithm controlled linear piezoelectric ceramic motor drive,” IEEE International Conferences on Cybernetics & Intelligent Systems, pp. 469-474, June 2006. (Best Paper Award, NSC 93-2213-E-155-022)
  [102]   R. J. Wai and J. D. Lee, “Development of levitation control for linear maglev rail system via backstepping design technique,” IEEE International Conferences on Robotics, Automation & Mechatronics, pp. 412-417, June 2006. (NSC 94-2213-E-155-001)
  [103]   R. J. Wai and C. Y. Lin, “Implementation of novel maximum-power-extraction algorithm for PMSG wind generation system without mechanical sensors,” IEEE International Conferences on Robotics, Automation & Mechatronics, pp. 199-204, June 2006. (NSC 94-2213-E-155-001)
  [104]   R. J. Wai and C. L. Lai, “Low-cost drive and control system of brushless DC motor for household appliances,” R.O.C. Symposium on Electrical Power Engineering, pp. 2012-2016, December 2005. (NSC 92-2622-E-155-017-CC3)
  [105]   R. J. Wai and L. W. Liu, “High-efficiency multi-input converter with discharge and alone operations for fuel cell and battery applications,” Taiwan Power Electronics Conference, pp. 643-648, September 2005. (Excellent Paper Award, NSC 93-2623-7-155-014, 93-EC-17-A-05-S1-0012)
  [106]   R. J. Wai, C. Y. Lin, and W. H. Chuang, “Novel maximum-power-extraction algorithm for PMSG wind generation system,” Taiwan Power Electronics Conference, pp. 1241-1246, September 2005. (NSC 94-2623-7-155-007-ET, NL940246)
  [107]   R. Y. Duan and R. J. Wai, “Application of high-efficiency bidirectional converter for power sources with great voltage diversity,” Taiwan Power Electronics Conference, pp. 243-248, September 2005. (NSC 93-2623-7-155-014, 93-EC-17-A-05-S1-0012)
  [108]   R. J. Wai and C. Y. Tu, “Intelligent velocity control for power balancing measure system,” Taiwan Power Electronics Conference, pp. 1206-1211, September 2005. (NSC 93-2213-E-155-014, BB94017P)
  [109]   R. J. Wai and C. C. Chu, “Indirect field-oriented linear induction motor drive with petri fuzzy-neural-network control,” IEEE International Joint Conference on Neural Networks (IJCNN), pp. 378-383, August 2005. (NSC 90-2213-E-155-003, NSC 93-2213-E-155-014)
  [110]   R. J. Wai and C. H. Tu, “Total sliding-mode-based genetic algorithm control for linear piezoelectric ceramic motor drive,” IEEE International Joint Conference on Neural Networks (IJCNN), pp. 2278-2283, August 2005. (NSC 91-2213-E-155-063, NSC 92-2213-E-155-063, NSC 93-2213-E-155-022)
  [111]   R. J. Wai and R. Y. Duan, “High step-up coupled-inductor-based converter using bi-direction energy transmission,” IEEE Power Electronics Specialists Conference (PESC 2005), pp. 406-412, June 2005. (NSC 92-2623-7-155-014, 92-EC-17-A-05-S1-0012)
  [112]   R. J. Wai, J. D. Lee and C. C. Liao, “Model-free control design for hybrid magnetic levitation system,” IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), pp. 933-938, May 2005. (NSC 93-2213-E-155-014)
  [113]   R. J. Wai, C. Y. Tu and P. C. Chen, “Robust neural-fuzzy-network control for rigid-link electrically driven robot manipulator,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 1763-1768, November 2004. (NSC 93-2213-E-155-014)
  [114]   R. J. Wai, C. Y. Lin and C. C. Chu, “High step-up DC-DC converter for fuel cell generation system,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 57-62, November 2004. (Best Presentation Award, 92-EC-17-A-05-S1-0012)
  [115]   R. J. Wai and J. D. Lee, “Voltage-source resonant inverters for linear piezoelectric ceramic motor,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 1195-1200, November 2004. (NSC 93-2213-E-155-022)
  [116]   R. J. Wai, R. Y. Duan and M. A. Kuo, “High-efficiency fuel cell power conversion system,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 844-849, November 2004. (92-EC-17-A-05-S1-0012)
  [117]   R. J. Wai and C. H. Tu, “Adaptive grey control for hybrid-resonant linear piezoelectric ceramic motor drive,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 353-358, November 2004. (NSC 93-2213-E-155-022)
  [118]   R. J. Wai and L. W. Liu, “High-efficiency voltage-clamped DC-DC converter,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 570-575, November 2004. (92-EC-17-A-05-S1-0012)
  [119]   R. J. Wai, C. Y. Lin and R. Y. Duan, “High-efficiency DC-DC converter with high voltage gain and reduced switch stress,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 773-778, November 2004. (92-EC-17-A-05-S1-0012)
  [120]   R. J. Wai and R. Y. Duan, “High-efficiency DC/DC converter with high voltage gain,” R.O.C. Symposium on Electrical Power Engineering, pp. 522-527, November 2004. (92-EC-17-A-05-S1-0012)
  [121]   Y. F. Peng, C. M. Lin and R. J. Wai, “Adaptive hybrid control for linear piezoelectric ceramic motor using recurrent CMAC network,” IEEE International Conference on Systems, Man and Cybernetics, pp. 5794-5799, October 2004.
  [122]   R. J. Wai, P. H. Yao and L. W. Liu, “Soft-switching converter with active-clamp technique,” Taiwan Power Electronics Conference, pp. 528-533, September 2004. (92-EC-17-A-05-S1-0012)
  [123]   R. J. Wai, C. H. Lu and L. W. Liu, “A novel coupled-inductor converter with voltage-clamped circuit,” Taiwan Power Electronics Conference, pp. 522-527, September 2004. (92-EC-17-A-05-S1-0012)
  [124]   R. J. Wai, J. D. Lee and K. M. Lin, “Robust decoupled control of direct field-oriented induction motor drive,” Asian Control Conference (ASCC 2004), pp. 1355-1362, July 2004. (NSC 90-2213-E-155-003)
  [125]   R. J. Wai, K. M. Lin and C. Y. Lin, “Total sliding-mode speed control of field-oriented induction motor servo drive,” Asian Control Conference (ASCC 2004), pp. 1363-1370, July 2004. (NSC 90-2213-E-155-003)
  [126]   R. J. Wai, J. D. Lee and L. J. Chang, “Supervisory genetic evolution control for induction machine using fuzzy design technique,” Asian Control Conference (ASCC 2004), pp. 893-899, July 2004. (NSC 90-2213-E-155-003)
  [127]   R. J. Wai, J. D. Lee, and K. H. Su, “Supervisory enhanced genetic algorithm control for indirect field-oriented induction motor drive,” IEEE International Joint Conference on Neural Networks (IJCNN), pp. 1239-1244, July 2004. (NSC 90-2213-E-155-003)
  [128]   R. J. Wai, S. L. Yu and K. H. Su, “Development of adaptive fuzzy control for electrical servo drive via total sliding-mode technique,” IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), pp. 807-812, July 2004. (NSC 90-2213-E-155-003)
  [129]   R. J. Wai and K. H. Su, “Supervisory genetic algorithm control for linear ultrasonic motor drive,” International Congress on Acoustics (Invited Speaker), pp. 565-568, April 2004. (NSC 92-2213-E-155-063)
  [130]   R. J. Wai and C. Y. Lin, “Power-conditioning mechanism of electric scooter with fuel-cell energy,” R.O.C. Conference on Mechanical Engineering, pp. 965-971, December 2003. (91-EC-17-A-05-S1-0012, NSC 92-2511-S-155-002)
  [131]   R. J. Wai, R. Y. Duan and L. W. Liu, “A current-source sine wave voltage driving circuit via voltage-clamping and soft-switching techniques,” R.O.C. Symposium on Electrical Power Engineering, pp. 749-753, December 2003. (91-EC-17-A-05-S1-0012)
  [132]   R. J. Wai, S. P. Yu and W. H. Wang, “Composite driving and control system for direct-drive washing machine,” R.O.C. Symposium on Electrical Power Engineering, pp. 798-802, December 2003. (NSC 91-2622-E-155-015-CC3)
  [133]   R. J. Wai and C. Y. Lin, “Forward quasi-resonant converter with voltage-clamped mechanism,” R.O.C. Symposium on Electrical Power Engineering, pp. 744-748, December 2003. (91-EC-17-A-05-S1-0012)
  [134]   R. J. Wai, J. D. Lee and C. H. Tu, “Sliding-mode neural network control for series-resonant linear piezoelectric ceramic motor drive,” R.O.C. Symposium on Electrical Power Engineering, pp. 129-133, December 2003. (NSC 91-2213-E-155-063)
  [135]   R. J. Wai, R. Y. Duan, W. H. Wang and L. W. Liu, “Implementation of artificial intelligent control in single-link flexible robot arm,” IEEE International Symposium on Computational Intelligence in Robotics and Automation, pp. 1270-1275, July 2003. (NSC 90-2213-E-155-014)
  [136]   Y. F. Peng, R. J. Wai and C. M. Lin, “Adaptive CMAC model reference control system for linear piezoelectric ceramic motor,” IEEE International Symposium on Computational Intelligence in Robotics and Automation, pp. 30-35, July 2003. (NSC 91-2213-E-155-063)
  [137]   R. J. Wai, J. D. Lee and L. J. Chang, “Development of adaptive sliding-mode control for nonlinear dual-axis inverted-pendulum system,” IEEE/ASME International Conference on Advanced Intelligent Mechatronics, pp. 815-820, July 2003. (NSC 90-2213-E-155-014)
  [138]   R. J. Wai, C. H. Tu and K. Y. Hsieh, “Design of intelligent optimal tracking control for robot manipulator,” IEEE/ASME International Conference on Advanced Intelligent Mechatronics, pp. 478-483, July 2003. (NSC 90-2213-E-155-014)
  [139]   C. M. Lin, R. J. Wai and C. F. Hsu, “Fully tune adaptive fuzzy control for motor-toggle servomechanism,” IEEE/ASME International Conference on Advanced Intelligent Mechatronics, pp. 350-355, July 2003. (NSC 90-2213-E-155-014)
  [140]   R. J. Wai, K. H. Su and C. Y. Tu, “Implementation of adaptive enhanced fuzzy sliding-mode control for indirect field-oriented induction motor drive,” IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), pp. 1440-1445, May 2003. (NSC 90-2213-E-155-003)
  [141]   R. J. Wai and C. Y. Tu, “Environmental fault compensation and optimal path plan of synchronous control for radar vehicle auto-leveling mechanism,” Automatic Control Conference, pp. 1978-1983, March 2003. (NSC 91-2623-7-155-006)
  [142]   R. J. Wai, R. Y. Duan, J. D. Lee, L. W. Liu, C. H. Tu and W. H. Wang, “Low-frequency sinwave inverter via LLCC resonant technique,” R.O.C. Conference on Industrial Automatic Control & Power Applications, Part B-2, pp. 13-18, December 2002. (NSC 90-2745-P-155-004)
  [143]   R. J. Wai, J. D. Lee, L. W. Liu, W. H. Wang, C. H. Tu and C. T. Yang, “Implementation of an industrial servo controller for elevator-door mechanism using sliding-mode control,” R.O.C. Conference on Industrial Automatic Control & Power Applications, Part D-3, pp.12-18, December 2002. (NSC 90-2213-E-155-003)
  [144]   R. J. Wai, C. M. Lin and Y. F. Peng, “Intelligent hybrid control for linear piezoelectric ceramic motor using CMAC network,” R.O.C. Symposium on Electrical Power Engineering, pp. 430-434, December 2002. (NSC 90-2213-E-155-014)
  [145]   F. J. Lin, R. J. Wai and P. K. Huang, “Wavelet neural network control for linear ultrasonic motor drive,” International Computer Symposium, G2-3, 2002. (NSC 91-2213-E-259-022, SCI & EI)
  [146]   R. J. Wai, P. C. Chen and M. C. Lee, “Robust sliding-mode control for nonlinear flexible arm via neural network,” Asian Control Conference (ASCC 2002), pp. 996-1001, September 2002. (NSC 90-2213-E-155-014)
  [147]   V. D. Colli, R. Di Stefano, F. Marignetti, and R. J. Wai, “Nonlinear feedback control with sliding mode of a linear induction motor,” International Workshop on Advanced Motion Control (AMC 2002), pp. 226-231, 2002.
  [148]   R. J. Wai, “Robust control for motor-toggle servomechanism using fuzzy neural network,” American Control Conference (ACC), pp. 436-441, May 2002. (NSC 90-2213-E-155-014)
  [149]   R. J. Wai and K. Y. Hsieh, “Tracking control design for robot manipulator via fuzzy neural network,” IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), pp.1422-1427, May 2002. (NSC 90-2213-E-155-014)
  [150]   R. J. Wai and K. Y. Hsieh, “Adaptive control for n-link robot manipulator,” Proc. National Symposium on Automatic Control, pp. 782-787, March 2002. (NSC 89-2218-E-155-011)
  [151]   R. J. Wai and C. J. Chang, “Neural network tracking control for robot manipulator,” Proc. National Symposium on Automatic Control, pp. 788-793, March 2002. (NSC 89-2218-E-155-011)
  [152]   R. J. Wai, C. M. Lin and C. F. Hsu, “Adaptive fuzzy position controller for induction servomotor drive using sliding-mode technique,” IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), pp. 570-573, December 2001. (NSC 89-2218-E-155-011)
  [153]   R. J. Wai, R. Y. Duan, K. Y. Hsieh and J. D. Lee, “Robust control for LLCC resonant linear piezoelectric ceramic motor drive,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 586-590, November 2001. (NSC 89-2218-E-155-011)
  [154]   R. J. Wai, R. Y. Duan, W. K. Liu and S. P. Yu, “Nonlinear decoupled control for linear induction motor servo drive,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 635-639, November 2001. (NSC 89-2213-E-155-052)
  [155]   R. J. Wai, R. Y. Duan and L. J. Chang, “Grey feedback linearization speed control for induction servo motor drive,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 580-585, November 2001. (NSC 89-2218-E-155-011)
  [156]   R. J. Wai, W. K. Liu and S. P. Yu, “Adaptive optimal control for linear induction motor servo drive,” R.O.C. Symposium on Electrical Power Engineering, pp. 1326-1330, November 2001. (NSC 89-2213-E-155-052)
  [157]   R. J. Wai, J. M. Chang and H. H. Chang, “Robust wavelet-neural-network sliding-mode control for induction servo motor drive,” R.O.C. Symposium on Electrical Power Engineering, pp. 1336-1340, November 2001. (NSC 89-2218-E-155-011)
  [158]   R. J. Wai, “Robust control for induction servo motor drive,” IEEE Power Electronics Specialists Conference (PESC), pp. 760-765, June 2001. (NSC 89-2218-E-155-011)
  [159]   R. J. Wai and J. M. Chang, “Intelligent control of induction servo motor drive via wavelet neural network,” Proc. National Symposium on Automatic Control, pp. 961-966, March 2001. (NSC 89-2218-E-155-011)
  [160]   C. F. Hsu, R. J. Wai and C. M. Lin, “An adaptive fuzzy sliding-mode control with bound estimation for induction servo motor drive,” Proc. National Symposium on Automatic Control, pp. 1003-1008, March 2001. (NSC 89-2218-E-155-011)
  [161]   F. J. Lin, R. J. Wai, C. C. Lee and S. P. Hsu, “Robust control for linear induction motor servo drive using neural network uncertainty observer,” IEEE International Conference on Decision and Control, pp. 931-936, December 2000.
  [162]   R. J. Wai, “Adaptive sliding-mode control for induction servo motor drive,” R.O.C. Symposium on Electrical Power Engineering, pp. 473-478, November 2000. (NSC 89-2213-E-155-052)
  [163]   F. J. Lin and R. J. Wai, “Hybrid computed torque controller using fuzzy neural network for motor-toggle servomechanism,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 900-905, October 2000. (NSC 89-2213-E-033-048)
  [164]   R. J. Wai, F. J. Lin and C. M. Hong, “Adaptive recurrent-neural-network control for linear induction motor,” IEEE International Conference on Control Applications (CCA), pp. 184-189, September 2000. (NSC 89-2213-E-155-052)
  [165]   F. J. Lin, R. J. Wai and M. S. Tzeng, “Adaptive fuzzy-neural-network control for induction spindle motor drive,” International Power Electronics and Motion Control Conference (IPEMC), pp. 990-995, August 2000. (NSC 89-2213-E-033-047)
  [166]   R. J. Wai, C. H. Lin and F. J. Lin, “Adaptive sliding-mode control for motor-toggle servomechanism,” IEEE Power Electronics Specialists Conference (PESC), pp. 1093-1098, June 2000. (NSC 89-2213-E-155-052)
  [167]   F. J. Lin, R. J. Wai and C. H. Lin, “Adaptive fuzzy neural network control for motor-toggle servomechanism,” Proc. International Fuzzy Systems Association, pp. 194-198, 1999.
  [168]   R. J. Wai, C. M. Hong and F. J. Lin, “Decoupled stator-flux-oriented induction motor drive with fuzzy neural network uncertainty observer,” R.O.C. Symposium On Electrical Power Engineering, pp. 153-157, November 1998.
  [169]   F. J. Lin and R. J. Wai, “Fuzzy neural network controller for piezoelectric ultrasonic motor drive,” International Conference on Mechatronic Technology, pp. 119-124, 1998.
  [170]   F. J. Lin and R. J. Wai, “Two-axis motion control system with ultrasonic servo drives,” International Conference on Advanced Mechatronics, pp. 584-589, August 1998. (NSC 86-2213-E-033-044)
  [171]   F. J. Lin, R. H. Kuo and R. J. Wai, “A robust rotor speed observer for direct field-oriented induction motor drive,” R.O.C. Symposium on Electrical Power Engineering, pp. 151-155, November 1997. (NSC 86-2213-E-033-013)
  [172]   F. J. Lin and R. J. Wai, “On-line trained neural network controller for ultrasonic motor servo drive,” Proc. IEEE Power Electronics and Drive Systems, pp. 383-388, May 1997. (NSC 86-2213-E-033-044)
  [173]   R. J. Wai and F. J. Lin, “Fuzzy neural network model-following controller for ultrasonic motor servo drive,” Proc. National Symposium on Automatic Control, pp. 677-682, March 1997. (NSC 86-2213-E-033-044)
  [174]   F. J. Lin and R. J. Wai, “Adaptive control of the PM synchronous servo motor drive using on-line trained neural network,” Proc. Forth International Conference on Control, Automation, Robotics and Vision, pp. 474-478, December 1996.
  [175]   F. J. Lin, H. P. Chen and R. J. Wai, “A novel ultrasonic motor servo drive with on-line trained neural network adaptive controller,” R.O.C. Symposium on Electrical Power Engineering, pp. 86-90, November 1996. (NSC 86-2213-E-033-044)
  [1]   魏榮宗、林大鈞,健康促進方法及其系統,中華民國發明專利,專利號碼I618025,專利期間107/03/11至125/08/08
  [2]   謝建德、陳鈺夫、林友復、魏榮宗,高導電性基板及其製作方法,大陸發明專利,專利號碼CN2605748,專利期間103/09/17至123/09/17
  [3]   魏榮宗、邱智煇、陳孟偉、謝建德、林友復,石墨導熱片的製備系統及其檢測裝置,大陸發明專利CN 2549670,專利期間 103/01/13至123/01/13
  [4]   魏榮宗,空調主機運轉策略控制系統、控制裝置及其方法,中華民國發明專利,專利號碼565916,專利期間106/01/11至123/08/05
  [5]   魏榮宗、黃有智,熱水供應系統及其方法,美國發明專利,專利號碼US 9400118,專利期間102/11/12至122/11/14
  [6]   楊念哲、陳星志、李偉豪、曾威智、魏榮宗,配電系統與其配電管理方法,中華民國發明專利,專利號碼536696,專利期間105/06/01至123/04/29
  [7]   謝建德、陳鈺夫、林友復、魏榮宗,高導電性基板及其製作方法,中華民國發明專利,專利號碼534301,專利期間105/05/21至123/09/16
  [8]   魏榮宗、洪連勝,混合式電力轉換系統,中華民國發明專利,專利號碼504013,專利期間104/10/11至122/03/10
  [9]   魏榮宗、黃有智,電力負載監控及預測系統及其方法,中華民國發明專利,專利號碼504094,專利期間104/10/11至122/08/01
  [10]   魏榮宗、邱智煇、陳孟偉、謝建德、林友復,石墨導熱片的製備系統及導熱片檢測裝置,中華民國發明專利,專利號碼495869,專利期間104/08/11至123/01/02
  [11]   魏榮宗、洪連勝、鄭琨懷,高效率可逆式單輸入多輸出直流轉換器,中華民國發明專利,專利號碼489750,專利期間104/06/21至122/03/12
  [12]   魏榮宗、陳柏翰,可逆型多輸入交錯式直流/直流轉換器,中華民國發明專利,專利號碼489754,專利期間104/06/21至122/07/11
  [13]   魏榮宗、林志穎,複合式併網型電源轉換器以及供電系統及其模式控制方法,中華民國發明專利,專利號碼465028,專利期間103/12/11至120/06/09 (2015年台北國際發明暨技術交易展電子類「發明銀牌獎」)
  [14]   魏榮宗、鄭琨懷,單輸入多輸出直流/直流轉換器,中華民國發明專利,專利號碼458236,專利期間103/10/21至121/04/29 (2015年台北國際發明暨技術交易展電子類「發明金牌獎」)
  [15]   魏榮宗、廖俊傑,低工作電壓脈波暨鋸齒波產生電路,中華民國發明專利,專利號碼454060,專利期間103/09/21至120/11/24
  [16]   魏榮宗、邱怡碩、林志穎、黃立寧、黃有智,電力監控系統,中華民國發明專利,專利號碼441409,專利期間103/06/11至121/01/01
  [17]   魏榮宗、林宗佑,智慧型混合式電源轉換控制系統,中華民國發明專利,專利號碼387176,專利期間103/02/21至118/05/03
  [18]   魏榮宗、廖俊傑,低工作電壓之時脈與三角波產生電路,中華民國發明專利,專利號碼426709,專利期間103/02/11至118/01/07
  [19]   魏榮宗、張世杰,適應性充電方法,中華民國發明專利,專利號碼416840,專利期間102/11/21至120/04/14
  [20]   魏榮宗、劉嘉鳴、林有為,行動載具之強健型動態派翠遞迴式模糊類神經網路軌跡追蹤控制系統,中華民國發明專利,專利號碼413005,專利期間102/10/21至118/03/25
  [21]   魏榮宗、劉嘉鳴、林有為,行動載具適應型障礙物閃避之路徑規劃方法,中華民國發明專利,專利號碼404918,專利期間102/08/11至118/03/25
  [22]   魏榮宗、林長庚、張裕倉、陳奕錩、黃立寧,混合能源發電系統的裝置容量配置方法,大陸發明專利,專利號碼CN102263418B,專利期間102/08/07至119/05/26
  [23]   魏榮宗、林長庚、張裕倉、陳奕錩、黃立寧,混合能源發電系統的裝置容量配置方法,中華民國發明專利,專利號碼401611,專利期間102/07/11至119/05/25 (2010年台北國際發明暨技術交易展「發明銅牌獎」)
  [24]   魏榮宗、廖俊傑,低工作電壓之精密電流感測電路,中華民國發明專利,專利號碼3779085,專利期間101/12/11至118/01/07 (2013年台北國際發明暨技術交易展電子類「發明銀牌獎」)
  [25]   魏榮宗、林宗佑,高效率雙輸入直流/直流轉換器,中華民國發明專利,專利號碼372508,專利期間101/09/11至118/05/26
  [26]   魏榮宗、劉嘉鳴,動態派翠遞迴式模糊類神經網路即時控制系統,中華民國發明專利,專利號碼363546,專利期間101/05/01至117/01/30
  [27]   魏榮宗、林宗佑,高昇壓式隔離型雙輸入電源轉換器,中華民國發明專利,專利號碼351806,專利期間100/11/01至117/05/28
  [28]   魏榮宗、林俊佑,主動式漣波抑制系統,中華民國發明專利,專利號碼341646,專利期間100/05/01至117/01/10
  [29]   魏榮宗、林長庚、張裕倉、陳奕錩、黃立寧,Method for configuring installation capacities of hybrid energy generation system,美國發明專利,專利號碼US8458101,專利期間99/08/26至120/06/03
  [30]   魏榮宗、林宗佑,併網型風力發電系統及其最大功率擷取控制方法,中華民國發明專利,專利號碼309694,專利期間98/05/11至115/06/01
  [31]   魏榮宗、劉利偉,高效率單級式多重輸入雙向轉換器,日本發明專利,專利號碼4274485,專利期間098/03/13至117/03/13
  [32]   魏榮宗、劉利偉,高效率單級式多重輸入雙向轉換器,中華民國發明專利,專利號碼305076,專利期間098/01/01至114/06/16 (2012年台北國際發明暨技術交易展電力類「發明銅牌獎」)
  [33]   魏榮宗、王文宏,High-performance solar photovoltaic (PV) energy conversion system,美國發明專利,專利號碼US7479774,專利期間98/01/20至117/01/20
  [34]   魏榮宗、段柔勇,High-efficiency high-voltage difference ratio bi-directional converter,美國發明專利,專利號碼US7382113,專利期間097/06/03至115/03/16 (2008年台北國際發明暨技術交易展電子類「發明銀牌獎」)
  [35]   魏榮宗、王文宏,高性能低輸入電壓潔淨能源電力轉換系統,中華民國發明專利,專利號碼296460,專利期間097/05/01至115/01/17
  [36]   魏榮宗、王文宏,高性能太陽光電能源轉換系統,中華民國發明專利,專利號碼296457,專利期間097/05/01至115/01/17 (2008年台北國際發明暨技術交易展環保類「發明金牌獎」及最佳綠色產品獎)
  [37]   魏榮宗、劉利偉,High efficiency single stage bidirectional converter,美國發明專利,專利號碼US7375985,專利期間097/05/20至115/03/16 (2008年台北國際發明暨技術交易展電子類「發明金牌獎」)
  [38]   魏榮宗、段柔勇、李政道、涂景翔,發展高增益六階諧振技術應用於線型壓電陶瓷馬達驅動電路,中華民國發明專利,專利號碼271024,專利期間096/01/11至111/12/29
  [39]   魏榮宗、段柔勇,高效率高壓差比雙向換流器,中華民國發明專利,專利號碼262646,專利期間095/09/21至114/07/12
  [40]   魏榮宗、段柔勇,Current source wave voltage inverter voltage-clamping and soft-switching techniques, and fuel cell system using the same,美國發明專利,專利號碼US7262979,專利期間095/09/21至115/09/20 (2008年台北國際發明暨技術交易展電子類「發明銀牌獎」)
  [41]   魏榮宗、段柔勇、林宗佑,具電壓箝制及柔性切換機制之高效率燃料電池高昇壓比換流器,中華民國發明專利,專利號碼252589,專利期間095/04/01至112/12/07
  [42]   魏榮宗、劉利偉、段柔勇,具高階諧振架構及閉迴路控制之高效率燃料電池電力調節裝置,中華民國發明專利,專利號碼253201,專利期間095/04/11至112/10/16
  [43]   魏榮宗、劉利偉、段柔勇,高效率電壓箝制直流/直流換流器,中華民國發明專利,專利號碼239134,專利期間094/09/01至113/04/27
  [44]   魏榮宗、段柔勇、林宗佑,具減低開關耐壓效能之高效率高昇壓比換流器,中華民國發明專利,專利號碼239136,專利期間094/09/01至113/04/22
  [45]   魏榮宗、段柔勇,Hybrid clean-energy power- supply framework,美國發明專利,專利號碼US7000395,專利期間094/09/15至113/09/15
  [46]   魏榮宗、杜俊諺,頂平機構同步控制之環境障礙補償與路徑尋優裝置,中華民國發明專利,專利號碼237166,專利期間094/08/01至112/05/04
  [47]   魏榮宗、李政道、陳盛基、袁紹中,電磁懸浮式線型運動機構,中華民國發明專利,專利號碼238134,專利期間094/08/21至112/07/31
  [48]   魏榮宗、段柔勇,利用耦合電感雙向磁路能量傳遞之高昇壓比換流器,中華民國發明專利,專利號碼238589,專利期間094/08/21至113/05/20
  [49]   魏榮宗、段柔勇,高效率高昇壓比直流/直流換流器,中華民國發明專利,專利號碼238590,專利期間094/08/21至113/06/09 (2007年台北國際發明暨技術交流展電器類「發明銀牌獎」)
  [50]   魏榮宗、段柔勇,Boost converter utilizing bi-directional magnetic energy transfer of coupling inductor,美國發明專利,專利號碼US7161331,專利期間094/04/111至114/11/12 (2008年台北國際發明暨技術交易展電子類「發明金牌獎」)
  [51]   魏榮宗、李政道、喻聖博,低成本直流無刷馬達數位式驅動控制系統,中華民國發明專利,專利號碼229972,專利期間094/03/21至112/10/05
  [52]   魏榮宗、喻聖博,實現複合式驅動控制架構於直驅式無刷馬達洗衣機,中華民國發明專利,專利號碼225904,專利期間094/01/01至112/09/24
  [53]   魏榮宗、段柔勇,混合式潔淨能源供電架構,中華民國發明專利,專利號碼225328,專利期間093/12/11至112/07/31
  [54]   魏榮宗、段柔勇,利用電壓箝制及柔性切換技術之電流源正弦電壓驅動電路,中華民國發明專利,專利號碼220591,專利期間093/08/21至112/05/04
  [55]   魏榮宗、段柔勇、李政道,利用能量反饋技術之線型壓電陶瓷馬達混合型諧振驅動電路,中華民國發明專利,專利號碼197634,專利期間093/02/11至111/09/15 (2007年台北國際發明暨技術交易展電器類「發明銀牌獎」)
  [56]   魏榮宗、段柔勇、李政道,線型壓電陶瓷馬達之高階共振驅動電路,中華民國發明專利,專利號碼170665,專利期間092/01/11至110/05/17
  [57]   魏榮宗、段柔勇,利用高階LLCC共振技術之60Hz正弦電壓共振驅動電路,中華民國發明專利,專利號碼156596,專利期間091/05/11至109/10/17
  [1]   S. D. Lin, T. L. Yu, Y. C. Cheng, F. B. Weng, S. J. Lee, Y. T. Lin, H. S. Wu, R. J. Wai, A. Lin, T. J. Lay, S. S. Tsang, and S. H. Chan, Fuel Cell: New Generation Energy. Taiwan: Tsang-Hai, 2004.
  [2]   F. J. Lin and R. J. Wai, Electric Control. Taiwan: Tsang-Hai, 2002.
  [3]   R. J. Wai, Drive and Intelligent Control of Ultrasonic Motor, Ph.D. Thesis, Chung Yuan Christian University, Taiwan, 1999.
  [4]   F. J. Lin, R. J. Wai and R. Y. Duan, Drive and Intelligent Control of Ultrasonic Motor. Taiwan: Tsang-Hai, 1999.
  [5]   F. J. Lin and R. J. Wai, “Intelligent Adaptive Control: Industrial Applications in the Applied Computational Intelligence Set” in Intelligent Adaptive Control: Industrial Applications. Edited by L. C. Jain, CRC Press LLC, 1998.
  [1]   R. J. Wai, “Campus energy saving and carbon reduction counseling program,” Final Report of K-12 Education Administration, Ministry of Education, R.O.C., 2019.
  [2]   R. J. Wai, “Consulting service project for rental business setup of solar photovoltaic power generation equipment at school (Second stage),” Final Report of Ministry of Education, R.O.C., 2018.
  [3]   R. J. Wai, “Energy saving promotion project for middle-scale and small-scale industrial usage (III),” Final Report of Ministry of Economic Affairs, R.O.C., 2018.
  [4]   R. J. Wai, “Renewable energy promotion and energy saving diagnosis in Hsinchu country,” Final Report of Hsinchu Government, Taiwan, 2018.
  [5]   R. J. Wai, “Development of demand aggregation service platform for demand-side distributed energy and electricity management,” Final Report of Ministry of Science and Technology, R.O.C., 2018.
  [6]   R. J. Wai, “Counseling program of energy efficiency measuring and testing for factory equipment,” Final Report of Foundation of Taiwan Industrial Service, R.O.C., 2018.
  [7]   R. J. Wai, “Energy-saving diagnostic service project,” Final Report of Inventec Company, R.O.C., 2018.
  [8]   R. J. Wai, “Campus energy saving and carbon reduction counseling program,” Final Report of K-12 Education Administration, Ministry of Education, R.O.C., 2018.
  [9]   [81] R. J. Wai, “Energy saving promotion project for middle-scale and small-scale industrial usage (II),” Final Report of Ministry of Economic Affairs, R.O.C., 2017.
  [10]   [82] R. J. Wai, “Counseling program of energy efficiency measuring and testing for factory equipment,” Final Report of Foundation of Taiwan Industrial Service, R.O.C., 2017.
  [11]   [80] R. J. Wai, “Research on high-efficiency reversible power conversion and intelligent control technique for energy storage system (2/3),” Final Report of Ministry of Science and Technology, R.O.C., MOST 104-2221-E-011-172-MY3, 2017.
  [12]   [79] R. J. Wai, Consulting service project for rental business setup of solar photovoltaic power generation equipment at school (first stage), Final Report of Ministry of Education, R.O.C., 2017.
  [13]   R. J. Wai, “Energy saving promotion project for middle-scale and small-scale industrial usage,” Final Report of Ministry of Economic Affairs, R.O.C., 2016.
  [14]   R. J. Wai, “Development of IOT management and service platform techniques for electric scooters,” Final Report of Ministry of Economic Affairs, R.O.C., 104-EC-17-A-02-S2-001, 2016.
  [15]   R. J. Wai, “Research on high-efficiency reversible power conversion and intelligent control technique for energy storage system (1/3),” Final Report of Ministry of Science and Technology, R.O.C., MOST 104-2221-E-011-172-MY3, 2016.
  [16]   R. J. Wai, “Lighting renew grant project for community in Taipei city,” Final Report of Department of Environmental Protection, Taiwan, 2016.
  [17]   R. J. Wai, “Key technology development of fuel cell system: energy conversion and power control (III),” Final Report of Ministry of Economic Affairs, R.O.C., 93-EC-17-A-05-S1-0012, 2005.
  [18]   R. J. Wai, “High-efficiency power conversion and optimal control of hybrid-power mobile vehicle (3/3),” Final Report of National Science Council, R.O.C., NSC 101-2211-E-155-043-MY3, 2015.
  [19]   R. J. Wai, Negative electrode powder modification technique for high-performance Li-ion battery and its equipment development, Final Report of Jaan Cherng Technological Company, R.O.C., 2014.
  [20]   R. J. Wai, “High-efficiency power conversion and optimal control of hybrid-power mobile vehicle (2/3),” Final Report of National Science Council, R.O.C., NSC 101-2211-E-155-043-MY3, 2014.
  [21]   R. J. Wai, “Research of intelligent trajectory tracking and path planning for mobile robot (3/3),” Final Report of National Science Council, R.O.C., NSC 100-2268-E-155-003-MY3, 2014.
  [22]   R. J. Wai, “Yuan Ze university: Demonstrative project for energy saving and carbon reduction in campus (I),” Final Report of National Science Council, R.O.C., NSC 102-3113-P-155-001, 2014.
  [23]   R. J. Wai, Development of fast detection system for high heat-conduction carbon radiator, Final Report of Jaan Cherng Technological Company, R.O.C., 2014.
  [24]   R. J. Wai, Intelligent solar power forecasting and multi-objectives management and control technical research, Final Report of Institute for Information Industry, R.O.C., 2013.
  [25]   R. J. Wai, “Research of intelligent trajectory tracking and path planning for mobile robot (2/3),” Final Report of National Science Council, R.O.C., NSC 100-2268-E-155-003-MY3, 2013.
  [26]   R. J. Wai, “High-efficiency power conversion and optimal control of hybrid-power mobile vehicle (1/3),” Final Report of National Science Council, R.O.C., NSC 101-2211-E-155-043-MY3, 2013.
  [27]   R. J. Wai, “Intelligent hybrid power stand-alone and grid-connection system (III),” Final Report of Taiwan Green Productivity Foundation, R.O.C., 0P43-A, 2012.
  [28]   R. J. Wai, Development of low-carbon and sustainable renewable energy in North Taiwan, Environmental Protection Department, Final Report of New Taipei City Government, R.O.C., 2012.
  [29]   R. J. Wai, Development trend of international energy techniques, Final Report of Corporate Synergy Development Center, R.O.C., 101HA001, 2012.
  [30]   R. J. Wai, Power monitoring and optimal load management of intelligent micro grid, Final Report of Institute of Nuclear Energy Research (INER), R.O.C., 1012001INER045, 2012.
  [31]   R. J. Wai, Development of unitized regenerative solid oxide fuel cell for power generation and hydrogen production from thermal energy of nuclear power plants (2/2), Final Report of National Science Council, R.O.C., NSC 101-3113-E-155-001, 2012.
  [32]   R. J. Wai, “Design of intelligent positioning and velocity sensorless control for multi-link robot manipulator including actuator dynamics (3/3),” Final Report of National Science Council, R.O.C., NSC 98-2221-E-155-057-MY3, 2012.
  [33]   R. J. Wai, “Research of intelligent trajectory tracking and path planning for mobile robot (1/3),” Final Report of National Science Council, R.O.C., NSC 100-2268-E-155-003-MY3, 2012.
  [34]   R. J. Wai, Application of building connected plot to construct and simulate solar energy and wind power system, Final Report of National Science Council, R.O.C., NSC 100-2221-E-155-085, 2012.
  [35]   R. J. Wai, “Intelligent hybrid power stand-alone and grid-connection system (II),” Final Report of Taiwan Green Productivity Foundation, R.O.C., GCP-98006, 2011.
  [36]   R. J. Wai, Hybrid power supply including Li-iron battery and fuel cell with metal bipolar plate for electric vehicle, Final Report of Yueki Industrial Company, R.O.C., 2011.
  [37]   R. J. Wai, Development of unitized regenerative solid oxide fuel cell for power generation and hydrogen production from thermal energy of nuclear power plants (1/2), Final Report of National Science Council, R.O.C., NSC 100-3113-E-155-001, 2011.
  [38]   R. J. Wai, “Optimal forecasting mechanism of electricity demand and energy capacity installation ratio for intelligent micro grid,” Final Report of Institute of Nuclear Energy Research (INER), R.O.C., 1002001INER065, 2011.
  [39]   R. J. Wai, “Management research of energy technology project achievements,” Final Report of Corporate Synergy Development Center, R.O.C., 100F5001, 2011.
  [40]   R. J. Wai, “Design of intelligent positioning and velocity sensorless control for multi-link robot manipulator including actuator dynamics (2/3),” Final Report of National Science Council, R.O.C., NSC 98-2221-E-155-057-MY3, 2011.
  [41]   R. J. Wai, The key technologies development of next-generation energy power sources for intelligent mobile platform (2/2), Final Report of National Science Council, R.O.C., NSC 99-2218-E-155-001, 2011.
  [42]   R. J. Wai, “Intelligent hybrid power stand-alone and grid-connection system (I),” Final Report of Taiwan Green Productivity Foundation, R.O.C., 8D26A1, 2010.
  [43]   R. J. Wai, Development of unitized regenerative solid oxide fuel cell for power generation and hydrogen production from thermal energy of nuclear power plants, Final Report of National Science Council, R.O.C., NSC 98-3114-E-155-001, 2010.
  [44]   R. J. Wai, “High-efficiency power conversion control mechanism of hybrid power-supply mobile platform with fuel cell and full parallel-connected Li-iron battery module,” Final Report of Institute of Nuclear Energy Research (INER), R.O.C., 992001INER058, 2010.
  [45]   R. J. Wai, Research and development of power conversion sub-modules for energy storage component, Final Report of Chung-Shan Institute of Science and Technology, R.O.C., CSIST–954-V101 (99), 2010.
  [46]   R. J. Wai, “Mechatronic integration design and precise motion control of hybrid magnetic-levitation rail system (2/2),” Final Report of National Science Council, R.O.C., NSC 97-2221-E-155-065-MY2, 2010.
  [47]   R. J. Wai, “Design of intelligent positioning and velocity sensorless control for multi-link robot manipulator including actuator dynamics (1/3),” Final Report of National Science Council, R.O.C., NSC 98-2221-E-155-057-MY3, 2010.
  [48]   R. J. Wai, The key technologies development of next-generation energy power sources for intelligent mobile platform (1/2), Final Report of National Science Council, R.O.C., NSC 98-2218-E-155-009, 2010.
  [49]   R. J. Wai, “The key technologies development of next-generation energy power sources for intelligent mobile platform,” Final Report of National Science Council, R.O.C., NSC 97-3114-E-155-002, 2009.
  [50]   R. J. Wai, “High-efficiency boost dc/dc converter and its control chip exploration for portable power-supply unit with super low-voltage clean energy,” Final Report of National Science Council, R.O.C., NSC 98-2623-E-155-001-ET, 2009.
  [51]   R. J. Wai, “Research of adaptive active low-frequency ripple current control for SOFC power conditioning mechanism,” Final Report of Institute of Nuclear Energy Research (INER), R.O.C., 982001INER045, 2009.
  [52]   R. J. Wai, “High-performance power condition and control for solar photovoltaic system (3/3),” Final Report of National Science Council, R.O.C., NSC 95-2221-E-155-070-MY3, 2009.
  [53]   R. J. Wai, “Mechatronic integration design and precise motion control of hybrid magnetic-levitation rail system (1/2),” Final Report of National Science Council, R.O.C., NSC 97-2221-E-155-065-MY2, 2009.
  [54]   R. J. Wai, Research of adaptive active low-frequency ripple control mechanism for clean energy power conditioning techniques, Final Report of National Science Council, R.O.C., NSC 97-2623-7-155-002-ET, 2008.
  [55]   R. J. Wai, Intelligent hybrid power conversion and control for SOFC with stand-alone and grid-connected power supply mechanism, Final Report of Institute of Nuclear Energy Research (INER), R.O.C., 972001INER038, 2008.
  [56]   R. J. Wai, Wavelet neural network for guidance system design of unmanned aerial vehicle, Final Report of Chung-Shan Institute of Science and Technology, R.O.C., XC97A99P, 2008.
  [57]   R. J. Wai, “High-performance power condition and control for solar photovoltaic system (2/3),” Final Report of National Science Council, R.O.C., NSC 95-2221-E-155-070-MY3, 2008.
  [58]   R. J. Wai, “Intelligent high-efficiency single-stage bidirectional conversion control for multi-input power sources-example of hybrid SOFC and battery generation systems,” Final Report of National Science Council, R.O.C., NSC 96-2623-7-155-004-NU, 2007.
  [59]   R. J. Wai, “High-performance power condition and control for solar photovoltaic system (1/3),” Final Report of National Science Council, R.O.C., NSC 95-2221-E-155-070-MY3, 2007.
  [60]   R. J. Wai, “Mechatronic integration design and precise motion control of linear magnetic-levitation rail system,” Final Report of National Science Council, R.O.C., NSC 95-2221-E-155-085, 2007.
  [61]   R. J. Wai, “High-efficiency kw-level power conditioning mechanism for solid-oxide fuel cell,” Final Report of Institute of Nuclear Energy Research (INER), R.O.C., NL950206, 2006.
  [62]   R. J. Wai, “Stabilizing and tracking control of nonlinear dual-axis inverted-pendulum system (3/3),” Final Report of National Science Council, R.O.C., NSC 94-2213-E-155-001, 2006.
  [63]   R. J. Wai, “Research of unified AC servo motor control techniques,” Final Report of National Science Council, R.O.C., NSC 93-2622-E-155-017-CC3, 2005.
  [64]   R. J. Wai, “Research of intelligent maximum power extraction mechanism for wind generation system,” Final Report of Institute of Nuclear Energy Research (INER), R.O.C., NL940246, 2005.
  [65]   R. J. Wai, “High-efficiency step-up converter with coupled-inductor by way of bi-direction energy transmission,” Final Report of National Science Council, R.O.C., NSC 94-2623-7-155-007-ET, 2005.
  [66]   R. J. Wai, “Drive and control of linear piezoelectric ceramic motor (2/2),” Final Report of National Science Council, R.O.C., NSC 92-2213-E-155-022, 2005.
  [67]   R. J. Wai, “Stabilizing and tracking control of nonlinear dual-axis inverted-pendulum system (2/3),” Final Report of National Science Council, R.O.C., NSC 93-2213-E-155-014, 2005.
  [68]   R. J. Wai, “Key technology development of fuel cell system: energy conversion and power control (II),” Final Report of Ministry of Economic Affairs, R.O.C., 92-EC-17-A-05-S1-0012, 2004.
  [69]   R. J. Wai, “Low-cost drive and control system of brushless DC motor for household appliances,” Final Report of National Science Council, R.O.C., NSC 92-2216-E-155-017-CC3, 2004.
  [70]   R. J. Wai, and C. Y. Lin, “Fuel cell high-boost-ratio DC conversion circuit with voltage-clamped and soft-switching mechanism,” Yuan Ze University - College of Engineering Student Paper Competition, pp. 51-59, 2004. (Outstanding Paper Award)
  [71]   R. J. Wai, “Drive and control of linear piezoelectric ceramic motor (1/2),” Final Report of National Science Council, R.O.C., NSC 92-2213-E-155-063, 2004.
  [72]   R. J. Wai, “Stabilizing and tracking control of nonlinear dual-axis inverted-pendulum system (1/3),” Final Report of National Science Council, R.O.C., NSC 92-2213-E-155-030, 2004.
  [73]   R. J. Wai, “Researches of servo drive and control system on CNC automatic tools changer,” Final Report of National Science Council, R.O.C., NSC 91-2622-E-155-010-CC3, 2003.
  [74]   R. J. Wai, and C. H. Tu, “Development of high-gain six-order resonant technique for linear piezoelectric ceramic motor drive,” Yuan Ze University - College of Engineering Student Paper Competition, pp. 62-69, 2003. (Outstanding Paper Award)
  [75]   R. J. Wai, and L. W. Liu, “High-efficiency power conditioning module for uninterruptible power system via high-order resonant technique,” Yuan Ze University - College of Engineering Student Paper Competition, pp. 70-78, 2003. (Excellent Paper Award)
  [76]   R. J. Wai, W. H. Wang, and S. P. Yu, “Implementation of varied-frequency drive and digital control system on direct-drive-type washing machine via single chip micro-controller scheme,” Chinese Automatic Control Conference - Engineering Competition, 2003. (Best Award)
  [77]   R. J. Wai, C. H. Tu, and J. D. Lee, “Development of high-gain six-order resonant technique for linear piezoelectric ceramic motor drive,” Chinese Automatic Control Conference - Engineering Competition, 2003. (Best Award)
  [78]   R. J. Wai, “Researches of varied-frequency drive and control system on direct-drive type washing machine,” Final Report of National Science Council, R.O.C., NSC 91-2622-E-155-015-CC3, 2003.
  [79]   R. J. Wai, “Drive and control of linear piezoelectric ceramic motor,” Final Report of National Science Council, R.O.C., NSC 91-2213-E-155-063, 2003.
  [80]   R. J. Wai, “Key technology development of fuel cell system: energy conversion and power control (I),” Final Report of Ministry of Economic Affairs, R.O.C., 91-EC-17-A-05-S1-0012, 2003.
  [81]   R. J. Wai, “Resonant inverter using high-order LLCC resonant technique to improve the shortcoming of uniterruptable power system (III),” Final Report of National Science Council, R.O.C., NSC 91-2745-P-155-004, 2003.
  [82]   R. J. Wai, “Research on PC-based servo controller for elevator door,” Final Report of Chuan Yao Machinery Co., Ltd., R.O.C., EEP-9002, 2002.
  [83]   R. J. Wai, and J. D. Lee, “High-order resonant drive circuit for linear piezoelectric ceramic motor,” Yuan Ze University - College of Engineering Student Paper Competition, pp. 27-37, 2002. (Outstanding Paper Award)
  [84]   R. J. Wai, “Intelligent control for high-efficiency induction servo motor drive system,” Final Report of National Science Council, R.O.C., NSC 90-2213-E-155-003, 2002.
  [85]   R. J. Wai, “Intelligent optimal control for nonlinear motor-mechanism coupling system,” Final Report of National Science Council, R.O.C., NSC 90-2213-E-155-014, 2002. (Best Presentation Award)
  [86]   R. J. Wai, “Resonant inverter using high-order LLCC resonant technique to improve the shortcoming of uniterruptable power system (II),” Final Report of National Science Council, R.O.C., NSC 90-2745-P-155-004, 2002.
  [87]   [9] R. J. Wai, “Environmental fault compensation and optimal path design of synchronous control for radar vehicle supporting mechanism,” Final Report of National Science Council, R.O.C., NSC 91-2623-7-155-006, 2002.
  [88]   R. J. Wai, “Hybrid control for speed sensorless induction motor drive system,” Final Report of National Science Council, R.O.C., NSC 89-2218-E-155-011, 2001.
  [89]   R. J. Wai, “Resonant inverter using high-order LLCC resonant technique to improve the shortcoming of uniterruptable power system (I),” Final Report of National Science Council, R.O.C., NSC 89-2745-P-155-002, 2001.
  [90]   R. J. Wai, “Drive and control of linear induction motor,” Final Report of National Science Council, R.O.C., NSC 89-2213-E-155-052, 2000.

計畫名稱 計畫總額 執行始於 執行結束 委託單位
108年新竹地區再生能源推廣及節能輔導診斷計畫 300000 10803 10812 新系環境技術有限公司
次世代虛擬電廠之多元儲能單元管理系統運轉模式示範驗證計畫 600000 10803 10812 旭鑫能源股份有限公司
108年產業中小能源用戶節能診斷服務計畫 720000 10801 10812 財團法人台灣綠色生產力基金會
學校設置太陽光電發電設備分區諮詢服務計畫(北區及東區) 2000000 10801 10912 教育部
廈門理工學院-高等技職教育研修營 2,695,270 10712 10712 福建省教育廳
山東濟南工程職業技術學院參訪計畫 179,312 10712 10712 海峽兩岸跨世紀交流協進會
廈門理工學院-高等技職教育研修營 2,599,485 10711 10711 福建省教育廳
英業達公司節能診斷服務計畫 260000 10709 10711 英業達股份有限公司
礦大專業研修課程研習營 2,786,565 1078 1078 中國礦業大學電氣與動力工程學院
新竹地區再生能源推廣及節能輔導診斷計畫 300000 10706 10803 新竹縣政府
「台達自動化學程 DeltaMOOCx課程計畫」課程名稱:電機控制 1,012,500 1073 1082 財團法人台達電子文教基金會
製造業節能減碳服務團計畫之提供節能減碳訪視服務分包計畫 1000000 1072 10711 財團法人台灣產業服務基金會
107年校園節能減碳輔導團計畫 3,747,602 10702 10802 國民及學前教育署
發展用戶側分散式能源與用電管理之需量聚合服務平台 18,000,000 10701 10712 科技部
107年產業中小能源用戶節能推廣計畫 720000 10701 10712 財團法人台灣綠色生產力基金會
高等技職教育研修營 2,345,218 10612 10612 福建省教育廳
高等技職教育研修營 2,188,870 10610 10610 福建省教育廳
工廠耗能設備效率檢測輔導計畫 1,040,000 10608 10611 財團法人台灣產業服務基金會
潔淨能源單級式直流/交流升壓電力轉換控制關鍵技術研究 1,538,000 10608 10807 科技部
新竹縣雲端電力系統診斷與數據分析計畫 120000 10607 10611 新系環境技術有限公司
學校設置太陽光電發電設備標租作業分區諮詢服務計畫(第二期) 600000 10606 10712 教育部資科司
離島型微電網技術發展與交流-適用於電池充電與環境監測並可搭配內建太陽能電池之低功耗溫度與電壓感測器 1878000 10606 10805 科技部
106年校園節能減碳輔導團計畫 3600000 1062 1072 國民及學前教育署
106年產業中小能源用戶節能推廣計畫 900000 1061 10612 財團法人台灣綠色生產力基金會
學校設置太陽光電發電設備標租作業分區諮詢服務計畫(第一期) 500000 10512 10605 教育部
105年產業中小用戶節能推廣計畫 640000 1055 10511 經濟部能源局
臺北市社區照明翻新補助計畫 1680279 10409 10504 台北市政府環保局
高效率儲能系統可逆式電力轉換及智慧控制技術研究 2680000 10408 10703 科技部
物聯網電動載具管理服務平台技術開發計畫 2500000 10406 10411 經濟部技術處
石墨烯試量產技術開發及設備研製 194033 10304 10305 展成科技股份有限公司
高性能鋰電池負極粉體改質技術暨設備研製 2875000 10211 10304 展成科技股份有限公司
高導熱石墨散熱片快速檢測系統開發 4312500 10209 10302 展成科技股份有限公司
元智大學校園節能減碳典範運行計畫 6430000 10207 10306 國科會
智慧型太陽能發電預測及多目標管理調控技術研究 900000 10204 10212 資策會
混合動力移動載具之高效率電力轉換及最佳化控制 2592000 10108 10407 國科會
101年度國際能源科技發展趨勢分析 435000 10104 10111 中衛發展中心
北部低碳永續再生能源推動專案計畫 900000 10101 10110 新北市環保局
智慧型微電網電力調度與最佳化負載管理 710000 10101 10112 核研所
智慧型行動載具軌跡追蹤及路徑規劃研究 2093000 10008 10307 國科會
建築鍵結圖應用在建築太陽能與風力系統之建構與模擬 408000 10008 10107 國科會
智慧型微型電網最佳化用電需量與能源配置比例估測機制 699840 10001 10012 核研所
金屬雙極板燃料電池與鋰鐵電池混合電力式電動三輪車 1000000 9908 10007 裕器工業股份有限公司
儲電元件與電力轉換次模組開發研究 2400000 9901 9912 中科院
燃料電池與全並聯鋰鐵電池模組混合供電行動載具之高效率電源轉換控制裝置 630000 9901 9912 核研所
太陽光電發電示範系統 3491250 9901 9906 經濟部
利用固態氧化物燃料電池將核能電廠熱能轉換為氫能之儲能系統開發 21530000 9811 10112 國科會
個人移動載具之次世代能源系統關鍵技術開發 11435000 9810 10009 國科會
智慧型混合能源獨立供電/市電併聯系統 9551000 9809 10102 台灣綠色生產力基金會
具有致動器動態之多軸機械臂智慧型定位及無速度感測控制設計 1923000 9808 10107 國科會
SOFC適應性主動式低頻電流漣波抑制電力調節技術研究 989280 9801 9812 核研所
攜帶式潔淨能源供電單元之超低壓高效率升壓式直流/直流轉換器及其控制晶片開發 526000 9801 9812 國科會
小波神經網路應用在無人機導引系統之研究 578600 9707 9711 中科院
具併網/獨立供電機制之SOFC智慧型混合式電源轉換控制系統 896000 9701 9712 核研所
適應性主動式低頻漣波控制機制於潔淨能源電力調節技術研究 526000 9701 9712 國科會
智慧型高效率單級式多重輸入雙向轉換控制技術研究-以SOFC燃料電池與蓄電池混合發電系統為例 568000 9601 9612 國科會
混合型磁浮軌道系統之機電整合設計與精密運動控制 1707000 9508 9907 國科會
高性能太陽光電能源轉換控制系統 2041000 9508 9807 國科會
水下載具智慧型導引技術研究 480000 9504 9511 中山科學研究院
高效率kW級SOFC電能轉換與監控設計及施作 600000 9503 9512 核研所
風力發電機控制與監測系統設計技術研究-小型風力發電機監測系統之設計 561000 9502 9512 國科會
台電公司氫能及燃料電池發展計畫之規劃及其各階段可行策略與作法 4285714 9412 9511 台灣電力公司
利用耦合電感雙向磁路能量傳遞之高效率高電壓增益換流技術 439200 9405 9412 國科會
再生能源重點科技委託研究計畫—高效率風力發電電源轉換系統研究 800000 9401 9412 核研所
泛用型交流伺服馬達控制技術研發 601500 9311 9410 國科會
高昇壓直流/直流換流技術 172000 9306 9406 茂迪股份有限公司
家電用無刷直流馬達之低成本驅動控制系統 706000 9212 9311 國科會
非線性雙軸倒單擺系統之穩定平衡及循軌控制 2977400 9208 9507 國科會
太陽光電發電示範系統 1650000 9208 9305 經濟部
H8-300微處理器應用程式開發 240000 9206 9209 星鼎科技股份有限公司
高效率低污染之燃料電池系統關鍵技術開發計畫—子計畫三:電力電子及監控系統 4639000 9112 9411 經濟部
線型壓電陶瓷馬達之驅動與控制 2162600 9108 9407 國科會
CNC自動刀具交換裝置之伺服驅動控制系統研發 734400 9106 9205 國科會
直驅式洗衣機之變頻驅動控制系統研發 529900 9106 9205 國科會
雷達車頂平機構同步控制之環境障礙補償與路徑尋優設計 438900 9101 9112 國科會
PC-Based電梯門伺服控制器研發 503700 9011 9110 川樂機電股份有限公司
智慧型控制之高效能感應伺服馬達驅動系統 637200 9008 9107 國科會
智慧型最佳化控制之非線性馬達-機構耦合系統 572400 9008 9107 國科會
綠色科技與管理—子計畫二: 結合燃料電池組與高階LLCC共振技術之電壓反流器以提升不斷電系統之效率 1096336 8912 9211 國科會
混合型控制之無轉速計感應馬達驅動系統 610500 8908 9007 國科會
線型感應馬達之驅動與控制 530000 8810 8907 國科會

指導學生
學年 論文題目 學生
104 人工石墨紙備製與應用 林友復
103 高效率非隔離/隔離直流-直流電源轉換系統設計 廖俊傑
103 設計多感測器切換路徑規劃控制系統應用於自走車目標追蹤及避障 林有為
101 校園節能減碳技術研究 黃有智
98 混合式潔淨能源電力轉換暨控制系統 林宗佑
95 線型磁浮軌道系統之機電整合設計與精密運動控制 李政道
92 高效率燃料電池電力調節技術 段柔勇
學年 論文題目 學生
104 物聯網電動載具管理服務平台技術開發 陳孟偉
103 單級式升壓反流器之智慧型控制設計 柳耀凱
102 混合型磁浮運輸系統之智慧型控制設計 姚景翔
101 分散式發電系統之高性能反流器設計 林志穎
101 智慧型多軸機械臂控制設計 洛其
101 高效率雙輸入電源轉換器 陳柏翰
101 具高壓差比及充電迴路之高效率電源轉換器 洪連勝
100 智慧型微型電網最佳化用電需量與能源配置比例估測機制 陳奕錩
100 以全域滑動模式理論為基礎之直流-直流升壓式轉換器電壓調節控制設計 時立中
100 高效率高增益雙向及多輸出電力轉換系統 鄭琨懷
100 具燃料電池及磷酸鋰鐵電池之混合動力源智慧型最佳化能量管理系統 張世杰
99 適應性主動式低頻漣波控制設計於潔淨能源電力調節裝置 林俊佑
97 設計動態派翠遞迴式模糊類神經網路控制系統應用於自走車避障及路徑追蹤 劉嘉鳴
96 以粒子尋優最佳化為基礎之磁浮運輸系統即時控制設計 莊坤倫
96 以模糊類神經網路為基礎之多軸機械臂適應性定位及無速度感測控制設計 楊志偉
95 以串接結構及里亞普諾夫理論為基礎之非線性雙軸倒單擺適應性模糊控制系統設計 郭孟安
94 高效率太陽光電能源轉換系統 王文宏
94 以數位訊號處理器實現派翠模糊類神經網路於線型感應馬達定位控制 朱嘉慶
93 基因演算法控制之線型壓電陶瓷馬達驅動系統 涂景翔
93 發展高效率高昇壓比直流-直流轉換器於燃料電池發電系統 劉利偉
91 適應性模糊滑動模式定位控制之永磁同步馬達驅動系統 尤順靈
91 全域滑動模式速度控制之直接磁場導向感應馬達驅動系統 林國銘
91 具有致動器動態之雙軸機械臂智慧型循軌控制 陳柏禎
91 雷達車頂平機構同步控制之環境障礙補償與路徑尋優設計 杜俊諺
91 實現低成本驅動及複合式控制於直驅式無刷馬達洗衣機 喻聖博
90 強健型小波類神經網路控制之磁場導向感應伺服馬達 張漢湘
90 多軸機械臂之力量控制及定位追蹤 謝冠雲
90 非線性雙軸倒單擺系統之穩定平衡及循軌控制 張立忠
89 單連結撓性機械臂之智慧型定位控制系統 李孟昌
89 應用小波類神經網路於旋轉型感應馬達位置控制 張家銘
89 非線性控制之線型感應馬達驅動系統 劉偉國
學年 專題題目 學生
年份 事蹟
2017  指導電子工程研究所碩士班研究生白家鴻同學以「電覆你想像」技術,獲得2017年高壓AMI電力資料創意應用競賽,獲得「銀牌獎」殊榮
2017  指導電子工程學系張誌富同學及陳威志同學以「Design of high step-up driving circuit for linear ultrasonic motor」論文發表於日本札幌所舉行之應用系統創新國際會議(ICASI),獲得「最佳論文獎」殊榮
2017 指導電子工程系周冠廷及鄭智文同學以「電力系統診斷與數據分析系統」參加2017年大專院校電力應用實作論文觀摩競賽,獲得「佳作」殊榮
2016  指導博士班研究生陳孟偉同學以「SKUROMOTO綠色交通」技術,獲得2016年Keep Walking夢想資助計畫
2015  指導丁昊宇同學及余春賢同學以「Fuzzy-neural-network inherited total sliding-mode control for robot manipulator」論文發表於日本大阪所舉行之應用系統創新國際會議(ICASI),獲得「最佳論文獎」殊榮
2014  指導鄭琨懷同學以「High-efficiency single-input multiple-output DC-DC converter」論文,獲得2014年財團法人徐有庠先生紀念基金會「有庠科技論文獎」殊榮
2014  指導陳孟偉同學以「SKUROMOTO物聯網電動機車資訊服務平台」技術,獲得2014年經濟部工業局MediaTek穿戴式暨物聯網競賽「亞軍」殊榮
2013  指導洪連勝同學以「具高壓差比及充電迴路之高效率電源轉換器」論文,獲得2013年台灣電機電子工程學會「最佳碩士論文獎」殊榮
2012  指導鄭琨懷同學以「高效率高增益雙向及多輸出電力轉換系統」論文,獲得2012年台灣電機電子工程學會「最佳碩士論文獎」殊榮
2012  指導林志穎同學、黃心寧同學及吳文娟同學以「複合式併網型電源轉換器以及供電系統及其模式控制方法」專題製作參加2012年德州儀器亞洲區DSP暨MCU應用競賽,獲得「DSP系統應用組第三名」殊榮
2008 指導林宗佑同學以優異學業成績及傑出研究績效獲得美國電機電子學會元智大學學生分會頒發「IEEE Certificate of Outstanding Achievement」以及救國團團總部頒發「97年大專優秀青年獎」
2006  指導涂景翔同學以「Lyapunov-based genetic algorithm controlled linear piezoelectric ceramic motor drive」論文發表於泰國曼谷所舉行之人工智慧系統國際會議(IEEE CIS’06),獲得「最佳論文獎」殊榮
2005  指導林宗佑同學以「High step-up DC-DC converter for fuel cell generation system」論文發表於韓國釜山所舉行之第三十屆美國電機電子學會工業電子年會(IEEE IECON’04),獲得「最佳論文發表獎」殊榮
2005  指導劉利偉同學以「High-efficiency multi-input converter with discharge and alone operations for fuel cell and battery applications」論文發表於第四屆電力電子研討會,獲得「優秀論文獎」殊榮