| Name | Been-Yin Lee |
|---|---|
| Job Title | Professor |
| Tel | +886-5-631-5312 |
| Fax | +886-5-631-5310 |
| Job | Professor, Department of Mechanical and Computer-Aided Engineering Director of Continuing Education Division |
| Expertise | Tool Design and Grinding, Precision Machining, Sequential Control, Mechatronics, Digital Imaging |
| Courses | ◎Mechatronics Integration and Laboratory ◎Graphical Control Programming Design ◎Interface Technology ◎Pneumatics and Hydraulics with Laboratory ◎Digital Logic Design and Laboratory ◎Fundamental Engineering Mathematics |
| Education | Master, Department of Mechanical Engineering, National Taiwan Institute of Technology |
| Experience | ◎Teaching Assistant, Department of Mechanical Engineering, Taipei Institute of Technology, 1984–1987 ◎Teaching Assistant, Department of Mechanical Engineering, Taiwan Institute of Technology, 1987–1990 ◎Lecturer, Department of Mechanical Manufacturing, National Huwei Institute of Technology, 1990–1995 ◎Associate Professor, Department of Mechanical Manufacturing, National Huwei Institute of Technology, 1995–2002 ◎Director, Audio-Visual Center, Aug. 1999 ~ Jul. 2002 ◎Professor, Department of Mechanical and Computer-Aided Engineering, Apr. 2002 ~ Present ◎Vice President, Department of Mechanical and Computer-Aided Engineering, Aug. 2016 ~ Jul. 2017 ◎Chair, Department of Mechanical and Computer-Aided Engineering, Aug. 2017 ~ Jul. 2018 ◎Distinguished Professor, Department of Mechanical and Computer-Aided Engineering, Academic Years 2019–2021 ◎Director, Continuing Education Division, Department of Mechanical and Computer-Aided Engineering, Aug. 2023 ~ Jul. 2025 ◎Director, Admissions Office, Department of Mechanical and Computer-Aided Engineering, Aug. 2025 ~ Present |
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| Year | Paper Title |
|---|---|
| 2022 | Y.C.Wang,C.H.Chen,B.Y.Lee,2009,“The Predictive Model of Surface Roughness and Searching System in Database for Cutting Tool Grinding”, Material Science Forum,Vols.626-627,pp.11-16.(EI), Jan. 2022 |
| 2022 | Jenn-Yih Chen and Bean-Yin Lee, “Composite Adaptive Position Control and Rotor Time Constant Estimation for Induction Motors Based on Passivity Theorem,” Proceedings of the Fourth International Conference on Innovative Computing, Information and Control, Kaohsiung, Taiwan, 7-9 Dec., 2009. (EI), Jan. 2022 |
| 2022 | Jenn-Yih Chen and Bean-Yin Lee “Adaptive Parameter Estimation and Position Control of Induction Motors Based on Passivity Theorem,” Materials Science Forum, Vols. 626-627, pp. 489-494, 2009. (EI), Jan. 2022 |
| 2022 | 李炳寅,2007,"Development of Automatic regrinding Program for PC-Based tool Gainding Machine",Journal of Mechanical Science and Technology., Jan. 2022 |
| 2022 | 李炳寅,2007,"刀具研磨進退刀製程規劃",技術學刊, Jan. 2022 |
| 2022 | Hsin Juan, Bean-Yin Lee and Wann-Yih Lin, 2005,“The Analysis Modeling of Machinability of SKD61 Tool Steel in High Speed Milling”, Journal of the Chinese Society of Mechanical Engineers, Vol.26, No5.,pp.657-663, Jan. 2022 |
| 2022 | Juan,H. , Yu,S.F and Lee ,B.Y ,2003, “The Optimal Cutting-parameter Selection of Production Cost in High Speed Machining for SKD61 Tool Steels,” International Journal of Machine Tools & Manufacture,Vol.43,pp.679-686., Jan. 2022 |
| 2022 | 阮信,游顯湖,李炳寅,2002,“具高速切削性能之商用CAM技術評估,” 技術學刊(submitted for publication)., Jan. 2022 |
| 2022 | Tsai,M. K.,Lee ,B.Y. and Yu,S.F. ,2002, “A Prediction modeling of Tool Life for High Speed SKD61 Tool Steel ,” International Journal of Advanced Manufacturing Technology (accepted for publication)., Jan. 2022 |
| 2022 | Lee ,B.Y.,Juan,H. and Yu,S.F. ,2004, “ The Model of Surface Roughness Inspection by Vision System in Turning ,” Mechatronics,Vol.14,pp.129-141., Jan. 2022 |
| 2022 | 李炳寅 ,阮信,林萬益,2002“車削製程中表面粗糙度動態變化評估模式,” 技術學刊 , 第十七卷 ,第一期 ,pp.31-36., Jan. 2022 |
| 2022 | 李炳寅 ,阮信,蔡銘焜,2002“SKD61模具鋼高速切削性能分析,” 技術學刊 ,第十七卷 ,第三期 ,pp.381-386., Jan. 2022 |
| 2022 | 李炳寅 ,游顯湖 ,曾翔明 ,鄭家偉 ,2001“網路化的CNC車床最佳切削選項系統,”技術學刊 ,第十六卷 ,第四期 ,pp.651-656., Jan. 2022 |
| 2022 | Lee ,B.Y.,Juan,H. and Yu,S.F. ,2002, “A Study Computer Vision for Measuring Surface Roughness in Turning Process ,” International Journal of Advanced Manufacturing Technology,Vol.19,pp.295-301., Jan. 2022 |
| 2022 | Lee, B.Y. and Tarng,Y.S.,2001,“Surface Roughness Inspection by Computer Vision in Turning Operations,” International Journal of Machine Tools & Manufacture,Vol.41,pp.1251-1263., Jan. 2022 |
| 2022 | Lin,W. S., Lee ,B.Y. and Wu,C. L.,2001, “Modeling the Surface Roughness and Cutting Force for Turning,” Journal of Materials Processing Technology,Vol.108,pp286-293., Jan. 2022 |
| 2022 | Yu,S.F. and Lee ,B.Y. ,Lin,W.S.,2001,”Waveform Monitoring of Electric Discharge Machining by Wavelet Transform,” International Journal of Advanced Manufacturing Technology,Vol.17,pp.339-343., Jan. 2022 |
| 2022 | Lee, B. Y., Tarng, Y. S., and Lii, H. R.,2000,“An Investigation of Modeling of the Machining Database in Turing Operations,” Journal of Materials Processing Technology,Vol.105,pp.1-6, Jan. 2022 |
| 2022 | Lee, B.Y. and Tarng,Y.S., 2000,“Cutting Parameter Selection for Maximizing Production Rate or Minimizing Production Cost in Multistage Turning Operations,” Journal of Materials Processing Technology,Vol.105,pp.61-66., Jan. 2022 |
| 2022 | Liu, H. S., Lee, B.Y., and Tarng, Y.S.,2000,“In-Process Prediction of Corner Wear in Drilling Operations”, Journal of Materials Processing Technology,Vol.101,pp.152-158., Jan. 2022 |
| 2022 | Lee, B. Y. and Tarng,Y.S., 2000,“ Drill Fracture Detection by the Discrete Wavelet Transform ”, Journal of Materials Processing Technology, Vol.99,pp.250-254., Jan. 2022 |
| 2022 | Tarng,Y.S. and Lee, B. Y.,1999,“Amplitude Demodulation of the Induction Motor Current for the Tool Breakage Detection in Drilling Operations”, Robotics and Computer Integrated Manufacturing ,Vol. 15,pp.313-318., Jan. 2022 |
| 2022 | Lee,B.Y. and Tarng,Y.S., 1999,“Milling Cutter Breakage Detection by the Discrete Wavelet Transform”, Mechatronics, Vol. 9,pp.225- 234. (89年甲種獎助代表作), Jan. 2022 |
| 2022 | Lee, B. Y., and Tarng,Y.S.,1999,“Application of the Discrete Wavelet Transform to the Monitoring of Tool Failure in End Milling Using the Spindle Motor Current”, International Journal of Advanced Manufacturing Technology, Vol.15,pp.238-243., Jan. 2022 |
| 2022 | Lee,B.Y., Liu, H.S., and Tarng Y.S., 1999, “An Abductive Network for Predicting Tool Life in Drilling, ”IEEE Transactions on Industry Applications, Vol. 35, NO.1, pp. 190- 195., Jan. 2022 |
| 2022 | Lee,B.Y., Liu,H.S., and Tarng,Y.S.,1998,“Modeling and Optimization of Drilling Process”, Journal of Materials Processing Technology Vol.74, pp.149-157., Jan. 2022 |
| 2022 | Lee,B.Y., Liu, H.S., and Tarng, Y.S., 1997,“Monitoring of Tool Fracture in End Milling Using Induction Motor Current ,”Journal of Materials Processing Technology, Vol.70, pp. 279-284.(87年甲種獎助代表作), Jan. 2022 |
| 2022 | Liu, H.S., Lee, B.Y., and Tarng, Y.S., 1996. “Monitoring of Drill Fracture from the Current Measurement of A Three-Phase Induction Motor, ”International Journal of Machine Tools & Manufacture, Vol. 36/6, pp. 729-738., Jan. 2022 |
| 2022 | Lee,B.Y., Tarng, Y.S., and Ma,S.C., 1995 “Modeling of the process Damping Force in Chatter Vibration,” International Journal of Machine Tools & Manufacture, Vol. 35/7, pp. 951-962.(86年甲種獎助代表作), Jan. 2022 |
| 2022 | Tarng, Y.S., Shyur, Y.Y., and Lee, B.Y., 1995, “Computer-Aided Generation of the Cutting Conditions in Pocket Machining,” Journal of Materials Processing Technology. Vol.51, pp. 223-234., Jan. 2022 |
| 2022 | Tarng, Y.S., Wang, T.C., Chen, W.N., and Lee, B. Y., 1995,“The Use of Neural Networks in Predicting Turning Forces,” Journal of Materials Processing Technology, Vol. 47,pp. 273-289., Jan. 2022 |
| 2022 | Tarng, Y.S., Young, H.T., and Lee, B.Y., 1994, “An Analytical Model of Chatter Vibration in Metal Cutting,” International Journal of Machine Tools & Manufacture, Vol. 34/2, pp. 183-197., Jan. 2022 |
| 2022 | Lee, B. Y., and Tarng, Y.S., 1994,“Prediction of Specific Cutting Force and Cutting Force Ratio in Turning,” Journal of Materials Processing Technology, Vol.41, pp. 71-82., Jan. 2022 |
| 2022 | Tarng, Y. S., and Lee, B. Y., 1993, “A sensor for the Detection of Tool Breakage in NC Milling,” Journal of Materials Processing Technology, Vol.36, pp.259-272., Jan. 2022 |
| 2022 | Tarng, Y. S., and Lee, B. Y.,1992,“Use of Model-Based Cutting Simulation System for Tools Breakage Monitoring in Milling,” International Journal of Machine Tools & Manufacture, Vol.32/5, PP.641-649., Jan. 2022 |
| Year | Paper Title |
|---|---|
| 2022 | 阮岱珈、李炳寅、蔡政呈,2009,“簡易型CNC三軸銑削加工系統開發”,第26屆全國機械工程學術研討會,成功大學, 11月20-21日。, Jan. 2022 |
| 2022 | 阮岱珈、李炳寅、蔡政呈、洪志雄,2009,“PC-Based控制器在CNC工具機上機電系統之應用”,第26屆全國機械工程學術研討會,成功大學, 11月20-21日。, Jan. 2022 |
| 2022 | 阮岱珈、李炳寅、蔡政呈、洪志雄,2009,“五軸工具磨床振動分析模式”,第26屆全國機械工程學術研討會,成功大學, 11月20-21日。, Jan. 2022 |
| 2022 | Yung-Cheng Wang, Chi-Hsiang Chen,Bean-Yin Lee, 2009, “OPTIMIZATION ANALYSIS OF MULTIPLE PERFORMANCE CHARACTERISTICS IN END-MILL FOR HIGH-SPEED MACHINING”, 20th INTERNATIONAL CONFERENCE ON PRODUCTION RESEARCH(ICPR20),Shanghai, China,3-6,August,2009., Jan. 2022 |
| 2022 | Yung-Cheng Wang, Chi-Hsiang Chen,Bean-Yin Lee, 2009,“The predictive model of surface integrity in end-mill grinding for high-speed milling”,The International Conference on Advances in Materials and processing Technologies(AMPT2009),Kuala, Jan. 2022 |
| 2022 | Jenn-Yih Chen, Bean-Yin Lee, Yu-Wet Lin and Sheng-Wen Chi, “Optimization of Parameters for Controller and Servo Drives of Tool Grinders,” Proceedings of the 10th International Conference on Automation Technology, Tainan, Taiwan, 27-29 Jun., 2009., pp., Jan. 2022 |
| 2022 | J. Y. Chen, B. Y. Lee, K. C. Lee and Z. K. Chen, “Development and Implementation of a Simplified Tool Measuring System,” Proceedings of the 9th International Symposium on Measurement Technology and Intelligent Instruments, Saint-Petersburg, Russia, 29 Jun.–2 Jul., 2009, pp. 2-263~2-267., Jan. 2022 |
| 2022 | 阮信,林文鋒,李炳寅,2001,「車削狀態變化的表面粗糙度預測模式」 , 12屆全國自動化科技研討會論文集,No.231,雲林。, Jan. 2022 |
| 2022 | 阮信,游顯瑚,李炳寅,2002,「以Abductive網路及田口實驗法為基礎之長薄鋁管件鏡面車削最佳參數設計」,第十九屆機械工程研討會論文集,D- 43。, Jan. 2022 |
| 2022 | 阮信、李炳寅、黃順章,2004,「利用計算機影像技術建構自動量測車削表面粗糙度儀」,第一屆磨潤暨材料科技研討會論文集。, Jan. 2022 |
| 2022 | 阮信,蔡銘焜,李炳寅,2001,「TiAlN鍍膜碳化鎢刀具高速銑削SKD61模具鋼之性能分析」, 雲嘉地區大專院校2001年研發成果聯合發表論文集,雲林。, Jan. 2022 |
| 2022 | 阮信,游顯瑚,李炳寅,黃順章,2002,「高速加工SKD61模具鋼最低成本之最佳化研究」,第十九屆機械工程研討會論文集,D-42。, Jan. 2022 |
| 2022 | 阮信,呂淮薰、趙健燁、游顯瑚,李炳寅,2003,「切削模具鋼用的高速端銑刀幾何之切削性能分析研究」,第二十屆機械工程研討會論文集,台北。, Jan. 2022 |
| 2022 | 許源泉,李炳寅,黃順章,2004,「影像檢測技術在晶片包裝紙帶沖壓製程的應用」,第二十一屆機械工程研討會論文集,高雄。, Jan. 2022 |
| 2022 | 阮信,李炳寅, 劉元平, 2004,「工具磨床再研磨刀具之表面粗糙度預估模式」,第二十一屆機械工程研討會論文集,高雄。, Jan. 2022 |
| 2022 | 阮信,李炳寅, 劉元平,2004,「傳統工具磨床半自動化研發」,第二十一屆機械工程研討會論文集,高雄。, Jan. 2022 |
| 2022 | H.S. Lu,B.Y. Lee,Ching-Kao Chang,Jiun-Yu Shiu, 2005,「Study on the prediction model of machined surface accuracy for periphereal milling operations」, 第12屆三軍官校基礎學術研討會,高雄., Jan. 2022 |
| 2022 | Jui-Chang Lin, B.Y. Lee,Yung-Cheng Wang, 2005,「Using vision system and neural network to create the relationship between the clearance and the precision of micro-punched burr」,50. Internationales Wissenschaftliches Kolloquium, Ilmenau., Jan. 2022 |
| 2022 | H. Juan, B. Y. Lee, Y. C. Wang, 2005, 「The predicted modeling of surface roughness for high speed milling of SKD61 tool steel」,50. Internationales Wissenschaftliches Kolloquium, Ilmenau., Jan. 2022 |
| Year | Project Title | Period |
|---|---|---|
| 2022 | 高速切削性能之商用CAM技術教學評估/執行期間90.8~91.7/金額(萬)7.5 | 2022.01 ~ Up to today |
| 2022 | 高速切削用端銑刀之切削性能最佳化分析模式/執行期間98.08~99.07/金額(萬)8 | 2022.01 ~ Up to today |
| 2022 | 98年度產業設備系統設計人才培育先導型計畫-自動化光學檢測產業設備系統設計人才培育教學資源中心/執行期間98.02~99.01/金額(萬)44 | 2022.01 ~ Up to today |
| 2022 | 經濟部學界開發展業技術計畫-高精度工具機關鍵模組化技術開發三年計畫(第二年)/執行期間98.06~99.06 | 2022.01 ~ Up to today |
| 2022 | CM2工具磨床線上端銑刀影像檢測系統開發/執行期間98.11~99.10/金額(萬)75.26 | 2022.01 ~ Up to today |
| 2022 | 多功能電腦數值控制介面與系統開發/執行期間98.11~99.10/金額(萬)60 | 2022.01 ~ Up to today |
| 2022 | 工具磨床周邊系統性能與良率提昇減少耗材浪費率/執行期間98.8~99.7/金額(萬)50 | 2022.01 ~ Up to today |
| 2022 | 線上即時刀具影像檢測軟體開發/執行期間98.10~99.9/金額(萬)60 | 2022.01 ~ Up to today |
| 2022 | 端銑刀研磨參數對刀具表面粗糙度的分析模式/執行期間98.3~98.8/金額(萬)13.33 | 2022.01 ~ Up to today |
| 2022 | (應用型)-工具磨床直線軸伺服運動效能調教最佳化研究/執行期間97.7~98.8/金額(萬)64.3 | 2022.01 ~ Up to today |
| 2022 | 微小端銑刀最佳設計與研磨模式建構(II)/執行期間97.8~98.7/金額(萬)52.5 | 2022.01 ~ Up to today |
| 2022 | 人性化PC-Based控制器教學系統開發/執行期間96.11~97.10/金額(萬)45.1 | 2022.01 ~ Up to today |
| 2022 | 新型油壓式汽車散熱片專用沖床之開發/執行期間96.1~96.12/金額(萬)210 | 2022.01 ~ Up to today |
| 2022 | 刀具研磨參數設定最佳化/執行期間96.10~97.3/金額(萬)15 | 2022.01 ~ Up to today |
| 2022 | 教育部96年度產業設備人才培育先導型計畫/執行期間96.8~97.1/金額(萬)52.91 | 2022.01 ~ Up to today |
| 2022 | 刀具研磨性能分析/執行期間96.9~97.8/金額(萬)72 | 2022.01 ~ Up to today |
| 2022 | 刀具磨床之簡易型高精度旋轉軸參數 檢測系統/執行期間96.8~97.7/金額(萬)300 | 2022.01 ~ Up to today |
| 2022 | 旋轉軸檢測系統人機介面之開發/執行期間96.8~97.7/金額(萬)25 | 2022.01 ~ Up to today |
| 2022 | 新式油壓式汽車散熱片專用沖床之開發/執行期間96.1~96.12/金額(萬)300 | 2022.01 ~ Up to today |
| 2022 | 微小端銑刀最佳設計與研磨模式建構(I)/執行期間96.8~97.7/金額(萬)53.1 | 2022.01 ~ Up to today |
| 2022 | PC-Based五軸精密工具磨床CAM模組自動化程式開發/執行期間95.5~96.4/金額(萬)38.5 | 2022.01 ~ Up to today |
| 2022 | 精密非金屬切削用之研磨鑽頭CAM程式開發/執行期間94.5~95-4/金額(萬)39 | 2022.01 ~ Up to today |
| 2022 | 高速切削課程規劃與內容建構/執行期間94.8~95.7/金額(萬)55.6 | 2022.01 ~ Up to today |
| 2022 | 無患子生物半自動化的無患子種子鑽削加工機開發技術升級專案輔導/執行期間94.4~94.9/金額(萬)23.4 | 2022.01 ~ Up to today |
| 2022 | 鼎維工業CNC工具磨床主軸溫昇之位移誤差檢測及補償系統技術升級專案輔導/執行期間94.4~94.9/金額(萬)36.6 | 2022.01 ~ Up to today |
| 2022 | 無患子果肉粉的自動化加工機機構分析/執行期間94.1~94.6/金額(萬)40 | 2022.01 ~ Up to today |
| 2022 | 再研磨刀具之CAD/Cam介面軟體/執行期間94.3~94.12/金額(萬)80 | 2022.01 ~ Up to today |
| 2022 | 以PC-Based控制器取代封閉式控制器執行/執行期間93.8~93.11/金額(萬)28 | 2022.01 ~ Up to today |
| 2022 | 開發與高速精微沖模壽命分析技術升級專案輔導/執行期間93.8~94.7/金額(萬)53.58 | 2022.01 ~ Up to today |
| 2022 | 優力達企業0402晶片紙帶之影像檢測程式/執行期間93.5~93.9/金額(萬)28 | 2022.01 ~ Up to today |
| 2022 | 最佳微小鑽削之切削參數分析/執行期間93.5~94.4/金額(萬)65.67 | 2022.01 ~ Up to today |
| 2022 | 五軸工具磨床磨削端銑刀製程規劃與分析/執行期間92.10~93.9/金額(萬)41 | 2022.01 ~ Up to today |
| 2022 | PC-BASED工具磨床再研磨自動化程式開發/執行期間92.8~94.1/金額(萬)62 | 2022.01 ~ Up to today |
| 2022 | 利用田口法與FEM建立0402晶片紙帶模具精度與參數之關係/執行期間92.8~93.7/金額(萬)38.24 | 2022.01 ~ Up to today |
| 2022 | 五軸CNC精密刀具磨床產品之研發/執行期間92.8~93.7/金額(萬)50.98 | 2022.01 ~ Up to today |
| 2022 | 網路化之車削程式設計及成本控制系統研究/執行期間92.8~93.7/金額(萬)64.9 | 2022.01 ~ Up to today |
| 2022 | 高速切削加工實習之課程規劃/執行期間92.6~93.5/金額(萬)21.6 | 2022.01 ~ Up to today |
| 2022 | 提升產業技術及人才培育研究計畫-傳統工具磨床的半智慧化研發/執行期間92.4~92.9/金額(萬)6.05 | 2022.01 ~ Up to today |
| 2022 | 鼎維工業CM2工具磨床生產自動化先期研發升級轉型診斷輔導計畫/執行期間92.2~92.7/金額(萬)54.87 | 2022.01 ~ Up to today |
| 2022 | 利用計算機影像技術建構自動量測車削表面粗糙度儀CM2工具磨床半自動化研發/執行期間91.8~92.7/金額(萬)52 | 2022.01 ~ Up to today |
| 2022 | 切削模具鋼用的高速端銑刀之幾何分析研究/執行期間91.6~92.5/金額(萬)50.36 | 2022.01 ~ Up to today |
| 2022 | 高速切削實驗及網頁設計/執行期間91.8~92.1/金額(萬)54.87 | 2022.01 ~ Up to today |
| 2022 | 高速切削之最佳切削參數設計/執行期間90.8~91.7/金額(萬)50.36 | 2022.01 ~ Up to today |
| 2022 | 人性化車床CAM軟體開發之測試研究/執行期間90.7.1~91.6.30/金額(萬)37.36 | 2022.01 ~ Up to today |
| 2022 | 機械零件加工技術及程式開發研究/執行期間90.9.1~90.11.30/金額(萬)12.1 | 2022.01 ~ Up to today |
| 2022 | 麵包烤板上麵色分離機研發/執行期間90.5~90.7/金額(萬)8 | 2022.01 ~ Up to today |
| 2022 | 高速切削刀具壽命預估模式建構具/執行期間90.5~90.11/金額(萬)43.3 | 2022.01 ~ Up to today |
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