您的瀏覽器不支援JavaScript功能,若網頁功能無法正常使用時,請開啟瀏覽器JavaScript狀態。 吳常熙老師 - 龍華科技大學電子工程系
跳到主要內容區
:::

吳常熙老師

資訊群組 : admin

一、基本資料

吳常熙老師

 

職級: 助理教授

姓名: 吳常熙

E-Mail: :cswu@gm.lhu.edu.tw ,  cswu88@gmail.com

研究室: C3123

分機號碼: 5623、5651


二、主要學歷

  • 國立清華大學電機工程所系統組博士
  • 國立清華大學電機工程所系統組碩士
  • 國立台灣科技大學電機工程系學士

三、 現職及與專長相關之經歷

  • 龍華科技大學電子工程系助理教授 91 / 8 至 迄今
  • 華格電子股份有限公司(台灣台南) 工程技術部 技術總監、顧問 103 /10 至 104/10
  • 神通資訊科技有限公司(台灣台北) 捷運內湖線專案 監造技術 96 /9 至 101/10
  • 漢闕電機事務所(台灣新北) 設計監造部 設計工程師、顧問、主任技師 88 /2 至 迄今
  • 清華大學(台灣新竹)電機系 電子學兼任講師 86 / 9至 87 /6

四、專長

  • 人工智能與機器視覺系統
  • 社區居家/工業/農業IOT系統
  • 非線性姿態與軌跡追蹤控制系統
  • 穿戴式生理訊號擷取處理與App專家系統
  • 電力與配電系統

五、證照

  1. 2002年電機技師高考及格

六、專利

  1. 專利名稱: 「整合型輸入装置」,中國大陸發明專利, CN201025527Y, 2008/2/20-2012/5/16.
  2. 專利名稱: 「Point input device」,美國發明專利,US20090128485A1,2009/5/21-2029/5/20.

七、競賽及展演

  1. 2014年第十屆全國電子創意應用競賽,  穴位生理訊號擷取系統,  綜合類 , 周建丞、張晏榕、李育陞,  佳作.
  2. 2015年第十一屆全國電子設計創意競賽, 穿戴式無線遙控車 ,  資通類 , ,陳柏嘉、柯宏霖、江志冠, 孕龍特別獎
  3. 2015年第十一屆全國電子設計創意競賽,  8 channel穴位生理訊號擷取系統, 電子類 , ,萬宗儒、戴亦瑜、陳浩維, , 佳作.
  4. 2015年第十一屆全國電子設計創意競賽, 用於生理訊號傳輸之TDMA多對一通訊系統設計, 資通類    洪千峻、曾泓凱、吳展侑, 佳作.
  5. 2015年第十一屆全國電子設計創意競賽, 十二導程心電量測, 綜合類,  陳柏辰、張晏榕、洪承佑, 佳作.
  6. 龍華科技大學創新創業團隊選秀競賽, 居家IOT看護系統, 電子類, 劉宇庭、陳庭緯、蕭均穎, 應天華圓夢基金2萬元.
  7. 104年度教育部全國生醫專題競賽,  具手持式裝置顯示之穿戴式無線穴位監測專家系統,  生醫器材類,  劉宇庭、王友廷、陳浩維, 佳作.
  8. 2016年第十二屆-全國電子設計創意競賽,  具手持式裝置顯示之穿戴式無線穴位監測專家系統,  行動APP類, 劉宇庭、王友廷、陳浩維, 佳作.
  9. 2016年第十二屆-全國電子設計創意競賽 , 使用藍芽4.1之多聲道無線之揚聲器, 資通類,  吳展侑、吳正安、陳庭緯, 佳作.
  10. 2017年第十三屆全國電子設計創意競賽,  具手持式裝置顯示之穿戴式十二導程ECG心律儀,  電子類,  陳柏嘉、王友廷、郭洋榕、林佳德、曾泓凱, 佳作.
  11. 2017年第十三屆全國電子設計創意競賽, 完全製具飛行穩定演算之四旋翼控制系統, 資通類, 戴亦瑜、謝易杰、鍾祐奇 , 佳作.
  12. 2017年第十三屆全國電子設計創意競賽, 具運動感測sensor與軌跡追蹤之穿戴式無線遙控車, 電子類,  林鈺堡、唐廷庸、李婕羽, 佳作.
  13. 2017年第十三屆全國電子設計創意競賽, 兩軸機械手臂控制演算法實現之研究,   綜合類, 蕭均穎、陳庭緯、鍾祐奇、羅閔泓、萬宗儒,  佳作.
  14. 2018年第十四屆全國電子設計創意競賽, 具穴位按摩及診斷功能之十二筋絡智慧筆, 電子類, 鍾政勳:張宏洲、陳思維、林昱銘、蔡宗祐、王友廷, 冠軍.
  15. 2018年第十四屆全國電子設計創意競賽,  四旋翼,, 綜合類, ,翁仕鴻、黃健瑋、張慶華、謝易杰、鍾祐奇, 特別獎.
  16. 2018年第十四屆全國電子設計創意競賽,  具無線影音傳輸及物業管理功能之社區居家IOT系統,  資通類,  呂翊鳴、林明陞、吳家豪、劉武勳、盧品齊,  佳作.
  17. 2018年第十四屆全國電子設計創意競賽,  具手持式裝置軌跡規劃之藍芽傳輸兩軸機械臂控制系統,  綜合類, 葉俊安、游政學、劉學豐、蕭均穎、張智瑋、周冠良, 佳作.
  18. 2018年第十四屆全國電子設計創意競賽, 具穿戴式運動感測與手持式裝置軌跡規劃之無線車輛循跡控制系統, 電子類, 林鈺堡、李婕羽、陳俊吉、陳冠維、莊庭豪, 佳作
  19. 2018年第十四屆全國電子設計創意競賽, 使用Python實現人臉部辨識系統, 行動APP及大數據分析類, 謝易杰、吳家豪、吳瑞弘、陳毅軒、李華澧, 佳作.
  20. 2019中銘杯兩岸物聯網應用技術技能邀請賽,  立體顯示物聯系統之實現, 統一題目團體賽, 林俊呈、邱鉉文、彭信瑀, 一等獎.
  21. 2019中銘杯兩岸物聯網應用技術技能邀請賽, 立體顯示物聯系統之實現, 統一題目團體賽, 賴珈余、李佶庭、何廷恩, 二等獎.
  22. 2019中銘杯兩岸物聯網應用技術技能邀請賽, 立體顯示物聯系統之實現, 統一題目團體賽, 陳嘉偉 、何旻鴻、孔祥潤, 三等獎.
  23. 2019中銘杯兩岸物聯網應用技術技能邀請賽,  立體顯示物聯系統之實現, 統一題目團體賽, 王麗茹、周明憓、張光耀, 優異獎.
  24. 2019年第十五屆全國電子設計創意競賽, 仿寫機械手臂, 電子組,  葉俊安、劉學豐、黃敬硯,  佳作.
  25. 2019年第十五屆全國電子設計創意競賽, 社區居家IOT, 資通組, 呂翊鳴、林明陞、賴珈余、李佶庭、何廷恩,  佳作.
  26. 2019年第十五屆全國電子設計創意競賽, 工廠端之全向輪無人車, 電子組,  莊庭豪、涂勝為、林家宏、陳冠維,  佳作.
  27. 2019年第十五屆全國電子設計創意競賽, 以ARM晶片實現ECG之EMG濾除的訊號處理系統, 資通組, 劉武勳、何旻鴻、吳家豪、王友廷, 佳作.
  28. 2019年第一屆技職校院大手攜小手物聯網創新應用競賽,  人體IOT:十二筋絡穴位保健筆, 物聯網,  吳佳哲、 石柏毅、 陳敬皓、 鍾均怡,  第二名.
  29. 2019年第一屆技職校院大手攜小手物聯網創新應用競賽,  智能抄表系統,  物聯網,  鄭學鴻、林俊呈、廖鈞義、賴家壕 , 佳作.
  30. 2020年第十六屆全國電子設計創意競賽, 自動點飲料機,  大專行動APP及大數據分析類, 黃健瑋、鄭家欣、陳秉楠、吳家豪, 冠軍.
  31. 2020年第十六屆全國電子設計創意競賽,  穿戴式生理及偵測睡眠系統之研究, 大專行動APP及大數據分析類, 馬志霖、邱鉉文、彭信瑀、詹少澤, 佳作.
  32. 2020年第十六屆全國電子設計創意競賽, 智能運動腳踏車,  綜合類, 王律衡、陳韋勳、陳秉楠、陳永翰, 佳作.
  33. 2020年第二屆技職校院大手攜小手製繪創新應用競賽,  具適應性電動助力之智慧腳踏車,  陳韋勳、陳冠廷、陳永瀚、林俊呈,  佳作.

八、科技部(國科會)及政府相關單位計畫

  1. 民航機降落之自動導引系統設計,主持人,2003/8-2004/7,國科會,577,900元。
  2. 次世代智慧型加護病房照護系統-子計畫三:應用於智慧型ICU生理監測系統之多對一短距無線通訊系統設計(1/3),主持人,2011/5-2012/4,國科會,832,000元。
  3. 次世代智慧型加護病房照護系統-子計畫三:應用於智慧型ICU生理監測系統之多對一短距無線通訊系統設計(2/3),主持人,2012/5-2013/4,國科會,802,000元。
  4. 次世代智慧型加護病房照護系統-子計畫三:應用於智慧型ICU生理監測系統之多對一短距無線通訊系統設計(3/3),主持人,2013/5-2014/10,國科會,634,000元。
  5. 大專生研究計畫「用於無人工廠自動倉儲搬運車軌跡規劃與控制系統之研究」,  科技部 , 2018/7-2019/2, 指導老師。
  6. 外骨骼及行動輔助機器人之皮膚軟組織安全防護: 人因設計、設備開發、臨床應用(重點主題A3/A2),共同主持人,2019/6-2021/5,科技部,6,050,000元。
  7. 大專生研究計畫「四軸DOBOT手臂實現仿寫及3D操作控制之研究」,  科技部, 2020/7-2021/2. 指導老師。

九、建教合作與企業實務專案

  1. 無線車輛軌跡控制系統 ,  工業技術研究院微系統中心,  2006/05/01~2006/11/30,  主持人, 200,000元.
  2. 定位軌跡監控設計與專利地圖建立, 工業技術研究院微系統中心, 2007/08/01~2007/10/31, 主持人, 392,000元.
  3. 定位軌跡監控專利地圖建立, 工業技術研究院合作開發, 2008/08/01~2008/12/31, 主持人, 350,000元.
  4. 電子電路設計培訓產學合作計畫, 力神科技股份有限公司, 2012/10/27~2013/01/26, 主持人, 72,000元.
  5. 無線通訊系統設計人才培訓計畫, 華格科技股份有限公司, 2013/03/27~2013/07/31, 主持人, 139,700元.
  6. 電動輪椅研發產學合作, 崧騰企業股份有限公司, 2016/04/01~2017/10/30, 主持人, 1,760,000元.
  7. 具RS274D檔圖形編輯與高速自動裁切系統研發產學合作計畫, 歐西瑪股份有限公司, 2017/04/01~2019/03/31,  協同主持人,  3,784,000元.
  8. 桃園教育局「ZENBO與DOBOT攜手創意系統開發案」, 義興國小, 2018/12/01~  2019/3/31,  主持人, 200,000元.
  9. 「高速動態影像處理演算法技術開發,」上展科技股份有限公司, 2019/04/1~ 2022/03/31, 協同主持人, 3,603,600元.
  10. 「直流有刷馬達驅動板開發」, 富伯生醫科技, 2019/6/01~ 2019/11/30,  主持人, 201,782元.
  11. 「自動導航車(AGV)即時定位與地圖建構(SLAM)技術開發」, 微星科技股份有限公司, 2019/09/01~ 2020/12/31,  主持人,  1,452,000元.
  12. 「自動飲料販賣機開發」,  御蜜仙草, 2019/12/01~ 2020/12/31, 主持人,  450,000元.
  13. 電刺激器研發,  波士頓生醫科技公司, 2019/8/01~ 2020/12/31,  主持人, 360,000元.
  14. 「快報推薦系統演算法開發」,  翰成數位科技股份有限公司 , 2020/11/01~ 2021/10/31, 協同主持人, 1,080,000元.

十、研究成果目錄

(A) 期刊論文

  1. C. S. WuU, B. S. Chen, and Y. W. Jan, “Unified Design for HB2B, HBB, and Mixed Control of Spacecraft,” Journal of Guidance, Control, and Dynamics, vol. 22, no. 6, 1999, pp. 884-896. (SCI)
  2. C. S. WuU, B. S. Chen, and Y. W. Jan, “Adaptive Attitude Control of Spacecraft: A Mixed HB2B/HBB Approach,” Journal of Guidance, Control, and Dynamics, vol. 24, no. 4, July-August 2001, pp. 755-766. (SCI)
  3. B. S. Chen, UC. S. WuU, and H. J. Uang, “A Minimax Tracking Design for Wheeled Vehicles with Trailer based on Adaptive Fuzzy Elimination Scheme,” IEEE Transactions on Control Systems Technology, 2000, pp. 418-434. (SCI)
  4. B. S. Chen, UC. S. WuU, and Y. W. Jan, “Adaptive Fuzzy Mixed HB2B/HB BAttitude Control of Spacecraft,” IEEE Transactions on Aerospace and Electronic Systems, vol. 36, no.4, 2000, pp.1343-1359. (SCI)
  5. Charng-Shi Wu and Yung-Yue Chen, “PID H2 Attitude Controls of Linear Spacecraft Systems.” Journal of Science and Innovation, vol. 3, no. 2, 2013. (SCI)
  6. Y.-L. Wu, C.-H. Yang and C.-H. Wu, “Chip Implementation of A New Hyperchaotic Oscillator,” Electronics Letters, vol. 53, Issue 4, 2017 vol. 3, no. 2, pp. 226 - 228. (SCI)
  7. Yuan-Long Wu, Cheng-Hsiung Yang, and Chang-Hsi Wu, “Design of Initial Value Control for Modified Lorenz-Stenflo System,” Mathematical Problems in Engineering, July, 2017. (SCI)

(B) 研討會論文

  1. B. S. Chen and C. S. Wu, “On the Attitude  Control Design of Spacecraft Dynamic Systems,” R.O.C. Automatic Control Conference, 1995, pp. 179-184.
  2. B. S. Chen and C. S. Wu, “A Robust Tracking Design of Wheeled Mobile Robot Systems via Fuzzy Cancellation Scheme,” R.O.C. Automatic Control Conference, 1997, pp. 29-34.
  3. C. S. WuU and B. S. Chen, “Mixed HB2B/HB BAdaptive Attitude Control of Spacecraft Systems,” R.O.C. Automatic Control Conference, 2000, pp. 694-699.
  4. C. S. WuU and Y. Y. Chen, “Robust Control Design of Automatic Landing Guidance of the Airplanes,” AASRC/CCAS BJointB Conference, December, 2004.
  5. C. S. WuU and B. H. Chang, Design of the Hairpin Resonator BPF for Microwave Communications,” 2006電子通訊與應用研討會, Kaohsiung, Taiwan, July 6, 2006.
  6. C. S. WuU, J. C. Fang and B. H. Chang, “Design of the Hairpin BPF for PHS Microwave Communications,” 2006高速B電路板B設計研討會(HSPCB’06), Taipei, Taiwan, June 9, 2006.
  7. C. S. WuU and R. J. Jhang, “A Variable Gain Dual-band CMOS LNA,” 2006 International Electron Devices and Materials Symposia (IEDMS’06), Tainan, Taiwan, December 7, 2006.
  8. C. S. WuU and R. H. Lin, “A 1.8-V 2.4/5.2-GHz Dual-Band LC VCO using 0.18-μm CMOS Technology,” The 5th Conference on Communication Applications, Taipei, Taiwan, March 16, 2007.
  9. C. S. WuU and J. Y. Chen, “An 3~10GHz Ultra-Wideband CMOS Low Noise Amplifier using Wideband Differential Pair,” The 3rd Conference on Intelligent Living Technology, Taichung, Taiwan, June 6,  2008.
  10. C. S. WuU,, J. Y. Chen and Y. P. Lin, “An 3-5 GHz Ultra-Wideband CMOS Low Noise Feedback Amplifier using Folded Cascode Structure,” The 3rd Conference on Intelligent Living Technology, Taichung, Taiwan, June 6,  2008.
  11. C. S. WuU and Y. C. Kuo, ” 5.6GHz CMOS Voltage-Contrelled Oscillator for Low-Voltage、Low-Power Operations,” The 3rd Conference on Intelligent Living Technology, Taichung, Taiwan, June 6,  2008.
  12. C. S. WuU and Y. C. Kuo, ” A 5.2GHz CMOS LC Quadrature VCO for Low-VoltageLow-Power Operations,” The 3rd Conference on Intelligent Living Technology, Taichung, Taiwan, June 6,  2008.
  13. C. S. WuU and H. T. Chou, ” A 2.4GHz Variable Conversion Gain Mixer For Low Voltage 、 Low Power With Body Bias Control Techniques,” National Symposium on Telecommunications, Huwei, Taiwan,  December 5, 2008.
  14. C. S. WuU,, J. Y. Chen and Y. P. Lin, “An Ultra-Wideband Low Noise Amplifier Using Feedback Matching And Compensation,” National Symposium on Telecommunications, Huwei, Taiwan, December 5, 2008.
  15. C. S. Wu, Y. P. Lin and Y. K. Lu, “An 3~10GHz Ultra-Wideband CMOS LNA Design using cascade-cascode configuration,” The 4rd Conference on Intelligent Living Technology, Taichung, Taiwan, June 5,  2009.
  16. C. S. WuU,, G. X. Jian and N. Y. Wu, “A 5.2GHz CMOS LC Quadrature VCO for Low-voltage、Low-phase noise Operations, ” The 4rd Conference on Intelligent Living Technology, Taichung, Taiwan, June 5,  2009.
  17. C. S. WuU,, Y. P. Lin and Y. K. Lu, “An Mixer Design using Gm-boosted configuration, ” National Symposium on Telecommunications, Kaohsiung, Taiwan, December 11, 2009.
  18. C. S. WuU,, G. X. Jian and N. Y. Wu, “A 5.4GHz CMOS LC VCO for Wide-Band Operation,” National Symposium on Telecommunications, Kaohsiung, Taiwan, December 11, 2009.
  19. C. S. WuU,, G. X. Jian and N. Y. Wu, “A Design of 5.2GHz QVCO for Low-power、Low-phase noise Operations With Enhancement Negative-Gm Technique,” National Symposium on Telecommunications, Kaohsiung, Taiwan, December 11, 2009.
  20. C. S. WuU,, W. H. Huang and T. I. Li, “A High-Linearity Up-Conversion Mixer Utilizing Negative Resistor, ” National Symposium on Telecommunications, Kaohsiung, Taiwan, December 11, 2009.
  21. C. S. WuU and H. T. Chou, “A 2.4GHz Variable Conversion Gain Mixer with Body Bias Control Techniques for Low Voltage Low Power Applications, ” Asia-Pacific Microwave Conference, Suntec, Singapore, December 9, 2009.
  22.  C. S. Wu and H. T. Chou, “ A Low-Voltage High-Gain Double-Balanced CMOS Mixer for WiMAX Applications, ” International Electron Devices and Materials Symposia, Taoyuan, Taiwan, November 19, 2009.
  23. C. S. WuU and G. X. Jian, “A CMOS LC VCO with Novel Negative Impedance Design for Wide-Band Operation, ”IEEE Radio Frequency Integrated Circuits Symposium Anaheim, California on May 23-25, 2010.
  24. C. S. Wu, Y. P. Lin, “Design of Down-Conversion Mixer with Gmboosted stage combining Low Phase Noise Oscillator,” International Symposium on Signals, Systems, and Electronics, China, Sep., 2010.
  25. C. S. Wu, Y. P. Lin, “A Low-Power CMOS Low Noise Amplifier for UWB Applications,” IEEE International Conference on Ultra-Wideband, China, Sep., 2010.
  26. C. S. Wu, W. H. Huang, “A High-Linearity Up-Conversion Mixer Utilizing Negative Resistor,” International Symposium on Signals, Systems, and Electronics, China, Sep., 2010.
  27. C. S. Wu, H. T. Chou, “A 1.2-V High-Gain UWB Mixer Utilizing Current Mirror Technique,” IEEE International Conference on Ultra-Wideband, China, Sep., 2010.
  28. C. S. Wu, G. X. Jian, “Design of Up Conversion Mixer with Enhanced Transconductance Stage and Low Power Consumption Oscillator,” International Symposium on Signals, Systems, and Electronics, China, Sep., 2010.
  29. C. S. Wu, W. H. Huang, “Design of A Down / Up Conversion Mixer with Built-in Oscillator,” Asia-Pacific Microwave Conference, Japan, Dec., 2010.
  30. C. S. Wu, Y. P. Lin, “Design of Low Power High Linearity Front-End Circuit with a Novel LNA Architecture,” Asia-Pacific Microwave Conference, Japan, Dec., 2010.
  31. C. S. Wu, H. T. Chou, Y. G. Lyn, “A 4 mW Current-Reused WiMAX LNA with Resistance-Feedback Topology in 0.18 μm CMOS,” Asia-Pacific Microwave Conference, Dec., 2010.
  32. Chang-Hsi Wu and Ning-Yuan Wu, “Design of Low Power Up-Conversion Self Oscillating Mixer,” Microwave Conference Proceedings (CJMW), Hangzhou, Apr., 2011. NSC 100-2220-E-262-001.
  33. Chang-Hsi Wu; Wai-Chi Fang; Ning-Yuan Wu, “Design of low power VCO using Gm-boosted technique for WLAN applications,” International Conference on Consumer Electronics, Berlin, Sep., 2011. NSC 100-2220-E-262-001.
  34. Chang-Hsi Wu and Chih-Ting Tsai, “A Low Power Chopper Stabilization Instrumentation Amplifier for Bio-Signal,” Symposium on Engineering Medicine and Biology Application (EMBA2013), Tainan, Taiwan, Feb., 2012.
  35. Chang-Hsi Wu, “A High Linearity Up-Conversion Mixer with IMD3 Cancellation and gm3-Boosting for 802.11a Application” International Conference on Microwave and Millimeter Wave Technology ICMMT, May, 2012.
  36. Chang-Hsi Wu, “Design of a Low-Noise Amplifier using Complementary and Current-Reused Technology,” International Conference on Microwave and Millimeter Wave Technology ICMMT, May, 2012. NSC 100-2220-E-262-001.
  37. Chang-Hsi Wu, Dong-Shiuh Wu, and Jun-Yi Liao, “A Design of Up- Conversion Mixer with Low Power Consumption VCO,” The International Electron Devices and Materials Symposium (IEDMS 2012), Kaohsiung, Taiwan, Nov., 2012.
  38. Chang-Hsi Wu and Zhao-Gang Liu, “A 5.8GHz LNA Design with Resisting the 5.2GHz Interference via Q-Enhancement Technique,” The International Electron Devices and Materials symposium (IEDMS 2012), Kaohsiung, Taiwan, Nov., 2012.
  39. Chang-Hsi Wu and Chih-Ting Tsai, “A Chopper Stabilization Instrumentation Amplifier for Bio-Signal Capture System,” The International Electron Devices and Materials Symposium (IEDMS 2012), Kaohsiung, Taiwan, Nov., 2012.
  40. Chang-Hsi Wu, Tzu-yang Cheng, “A TDMA Baseband Design for Physiological signal Transmission Application Based on FPGA,” International Symposium on Next-Generation Electronics (ISNE2014), May, 2014. NSC 103-2220-E-262-001.
  41. Chang-Hsi Wu, Tzu-yang Cheng, “A TDMA Baseband Design for Physiological signal Transmission Application in 0.18-μm CMOS Technology,” International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON 2014), Thailand, May, 2014. NSC 103-2220-E-262-001.
  42. Chang-Hsi Wu, Tzu-yang Cheng, “A Multi-to-One Short-Range Wireless Communication System for the Smart ICU Physiology Telemetry System,” International Conference On Consumer Electronics (2014 ICCE), Taipei, Taiwan, May, 2014. NSC 103-2220-E-262-001.
  43. Chang-Hsi Wu, Yu-Po Lin, Hong-Cheng You and Shun-Zhao Huang, “A 1.04 mm2, Low-power Front-end Circuit of Receiver in 0.18m CMOS for IEEE 802.11a Application,” Asia Pacific Conference on Circuits and Systems (APCCAS 2014), Okinawa, Japan, Nov., 2014. NSC 103-2220-E-262-001.
  44. Cheng-Hsiung Yang, Yuan-Long Wu, Yu-Sheng Li, Chang-Hsi Wu, “Nonlinear Dynamic Analysis and Chip Implementation of A New Chaotic Oscillator,” The 12th IEEE International Conference on Networking, Sensing and Control, Taipei, Taiwan, Apr., 2015.
  45. Chang-Hsi Wu, Yu-Sheng Li, Yuan-Long Wu, Cheng-Hsiung Yang, “A Hyperchaotic Oscillator Design for the Encrypted Communication Application,” The 4th International Symposium on Next-Generation Electronics (ISNE 2015), Taipei, Taiwan, May, 2015.
  46. Chang-Hsi Wu, Her-Lih Chiueh, Shun-Zhao Huang, Hong-Cheng You, “A 0.6-V 2.4/5.8 -GHz Dual-Band LC VCO in CMOS 0.18-μm Technology,” The 4th International Symposium on Next-Generation Electronics (ISNE 2015) , Taipei, Taiwan, May, 2015.
  47. Chang-Hsi Wu、Bo-Chen Chen、Jian-Chang Zhou, “Design of Super Regenerative On-Off Keying Receiver for 5.8GHz ISM Band Short Range Applications,” The 8th IEEE International Conference on Communication Software and Networks (ICCSN 2016), Beijing, June, 2016.
  48. Chang Hsi Wu、Bo Chen Chen、Jian Chang Zhou, “Implementation of ECG signal processing algorithms for removing baseline wander and electromyography interference,” The 8th IEEE International Conference on Communication Software and Networks (ICCSN 2016), Beijing, June, 2016.
  49. Tung Hsu Wu, Zong Ru Wan, Bo Jia Chen, and Chang Hsi Wu, “A Low Power Quadrature Voltage Controlled Oscillator Design for 2.4GHz ISM Band Application,” Proceedings of 2017 7th International Workshop on Computer Science and Engineering (WCSE 2017), Beijing, June, 2017.
  50. Chang-Hsi Wu, Hao-We Chen, Yuan-Long Wu and Cheng-Hsiung Yang, “Design of a Chaotic Signal Generator with Initial Value Tuning via the Pulse-Width Control Circuit,” Proceedings of 2017 the 7th International Workshop on Computer Science and Engineering (WCSE 2017), Beijing, June, 2017.
  51. Chang-Hsi Wu, Jun-Ying Xiao, “A Trajectory Planning and Robot Arm Imitation Control System for Remote Signature Application,” The 2nd International Conference on Software Engineering and Development (ICSED 2018), Chengdu, China, June, 2018.
  52. Her-Lih Chiueh, Yu-Ming Lin and Chang-Hsi Wu, “Design of Graphic Editor for The Alignments of RS274D Cut Files with CCD Textile Image,” The 2nd International Conference on Software Engineering and Development (ICSED 2018), Chengdu, China, June, 2018.
  53. Chang-Hsi Wu, Chin-Wei Chang, Jia-Hao Wu, and Yi-Chieh Hsieh, “Design of Imitation and 3D Operations Implemented With a Four-Axis DOBOT,” 2019 IEEE International Conference of Intelligent Applied Systems on Engineering (ICIASE 2019), Fuzhou Fujian, China, April, 2019.
  54. Chang-Hsi Wu, Wu-Xun Liu, Ming-Sheng Lin, and Jun-Ji Chen, “An ECG Extraction and Reconstruction System with Dynamic EMG Filtering Implemented on an ARM Chip,” 2019 IEEE International Conference of Intelligent Applied Systems on Engineering (ICIASE 2019), Fuzhou Fujian, China, April, 2019.
  55. Her-Lih Chiueh, Zong-You Tsai, You-Qi Zhong, You-Ting Wang, Guan-Liang Zhou, Chang-Hsi Wu, “Implementation of a XY axis Motion Control Supervisory System with CCD Image Distortion Correction and Automatic Arbitrary Trajectory Traversing Design Functionalities,” 2019 IEEE International Conference of Intelligent Applied Systems on Engineering (ICIASE 2019), Fuzhou Fujian, China, April, 2019.
  56. Chang-Hsi Wu, Jeng- Shiue You, and Ting-En Ho, “A Color Softening Technology of Pressure Sensing Distribution Used to Detect the Sitting Posture,” The Symposium on Digital Life Technologies 2020 (DLT 2020), Pingtung, Taiwan, May, 2020.
  57. Chang-Hsi Wu, Jian-Wei Huang, Shiau-Feng Liou, and Jr-Wei Jang, “The Realization of an Automatic Beverage Ordering System Using Voice Recognition on Zenbo Robot and Control of Four-Axis DOBOT Robot Arm,” The Symposium on Digital Life Technologies 2020 (DLT 2020), Pingtung, Taiwan, May, 2020.
  58. Chang-Hsi Wu, Hao Ting Zhoung, Hao Shan Tu, Wei Sheng Tu, and Shen Wei Chiu, “The Realization of an Automatic Guided Vehicle Based on Deep Learning Image Recognition Technology,” The 17th International Confernce on Automation Technology (Automation 2020), Hualien, Taiwan, November, 2020.

 

瀏覽數: