INTRODUCTION
Introduction

The International Graduate Program of Opto-Mechatronics for graduate students was initiated in 2006 by the Department of Mechanical Engineering at Chung Yuan Christian University (CYCU). The mission of the Program is to provide international students with a sound opto-mechatronics engineering education, advance the understanding and application of scientific principles, enhance economic development, and improve the quality of life o through teaching, research and outreach programs.

The Department of Mechanical Engineering was established in 1964, and the program was extended to the evening school in 1972. The graduate program was initiated in 1980. The Department has three degree levels. The undergraduate program, leading to a Bachelor of Science degree, is designed to provide high quality engineering training that allows each student as much flexibility as possible to pursue his (or her) interest and to develop his (or her) capabilities. After graduation, students find employment in all sectors from the government to the private, and from industrial to consulting. The graduate program, leading to a Master of Science in Mechanical Engineering degree and a Doctor of Philosophy degree, is designed to provide a broad perspective and mastery of fundamentals through a required sequence in advanced mathematical analyses and through emphases in three areas: 1) Thermofluid Science, 2) Solid Mechanics and design, 3) Control and Manufacturing, and 4) Opto-Mechatronics. Each student is trained to develop the capability to perform independent research and to develop appropriate professionalism in the field of Mechanical Engineering. Throughout the various programs, substantial emphasis is placed on the development of systematic procedures for analysis, effective communication skills, practical aspects in design, and on the responsible use of technology. This can provide students with an approach and a philosophy of great utility, irrespective of their ultimate career. At present, the student body of the department has 600 students in its undergraduate program, 110 students in its master’s program, and 48 students in its Ph.D. program. Graduates of ME, CYCU, are nowadays around every sector of Taiwan Society and contributing greatly to part of success in Taiwan’s vibrant industry of mechanical engineering.

The department has now 19 full-time faculty members (9 professors, 5 associate professors, 4 assistant professors, and 1 lecturer) and 21 adjunct professors, whose professions lay mainly in general mechanics, fluid/thermo dynamics and control and mechatronics. The Department of Mechanical Engineering at ChungYuanChristianUniversityowns a highly-appraised atmosphere for undergraduate/graduate studies and research activities. Thirteen laboratories are established by professors via continuous fundings of averaged NT$ 40,000,000 per year acquired from governmental agencies and industry. With the financial resource obtained, research facility is constantly purchased and/or updated throughout years for the development of cutting-edge technology. Persistent effort exerted by the faculty and students make the department known nationally for injection molding, mechatronics, and rotor dynamics.

  • Program Duration & Degree Offered
    MS Program - It is a policy that the duration for the M.S. program is from 1 year to 3 years. Students, who have successfully completed and passed 30 credits of courses (including 6 credits of Master Thesis) and oral defense for thesis within the stipulated time period, shall receive a diploma in M.S. Degree of Mechanical Engineering and an additional certificate stating the degree is obtained via the Program of Opto-mechatronics.

    Ph.D. Program - It is the policy that the duration for the PhD program is from 2 years to 6 years. Students, who have successfully completed and passed 36 credits of courses (including 12 credits of Doctoral Dissertation) and oral defense for dissertation within the stipulated time period, shall receive a diploma in Ph.D. Degree of Mechanical Engineering and an additional certificate stating the degree is obtained via the Program of Opto-mechatronics.
  • Related Research
    The Department of Mechanical Engineering at Chung Yuan Christian University has highly-appraised atmosphere of academic study and outstanding research achievements. At present the Institute is featured in the research and development of

    1. Injection molding
    2. Mechatronics
    3. Dynamics and precision control
    4. Opto-mechatronics
  • More Info : http://goo.gl/269Vn
OBJECTIVES

The objectives of International Graduate Program of Opto-mechatronics are to cultivate excellent talents in theory of opto-mechatronics as well as related applications. Special efforts will be devoted to equip the students with professional knowledge, creativeness, and applicability to the industry. The graduates are expected to have a balanced technical capability and engineering morality, in which way the graduates would serve the industry well and contribute to society and the country. Considering the aforementioned general aims of the Program, the following teaching objectives were pursued to cultivate excellent talents in opto-mechatronics and mechanical engineering.

  1. To educate students with capability to apply principles of mathematics, science and engineering fundamentals to solve problems of opto-mechatronics.
  2. To develop the student`s professional skills that lead to a successful career.
  3. To provide the student with the broad education needed to practice engineering in a global and societal context.

The department has made a deliberate connection between these 3 program objectives and 14 specific programs learning outcomes so that our success at achieving the program objectives can be determined in part by assessing the degree to which the outcomes are reached by our graduates.

REQUIREMENT

Required courses Seminar (0 credits) -- Master Thesis (6), Doctoral Dissertation (12)

Optional courses
Math Physics (3)
Statistics and Experimental Methods (3)
Computer Aided Engineering (3)
Immediate Applied Electronics (3)
Micro-actuators (3)
Micro-electro-mechanical Systems (3)
Computational Fluid Mechanics (3)
Fundamentals of Optomechatronics (3)
Theory of Digital Display (3)
Elements of Optics (3)

FACULTIES
Name Email Title Education Research Interest Area
Teng Jyh-Tong jyhtong@cycu.edu.tw Professor Ph.D., M.E., University of California, Berkeley,USA lNuclear engineering
lMicro-fluidics
Chang, Ming ming@cycu.edu.tw Professor Ph.D./M.E., National Taiwan Univ. , Taiwan lPrecision micro- and nano- measurement
l·Micro-mixers
Chen, Shia-Chung shiachun@cycu.edu.tw Professor Ph.D. in Materials Science, Northwestern University, USA lPolymer processing
lInjection molding
lDrop testing
Hsu, Cheng-Hsing Chhsu@cycu.edu.tw Professor Ph.D./M.E., Virginia Tech,USA lThermo-Fluidics
Kang, Yuan yk@cycu.edu.tw Professor Ph.D./M.E., National Chiao-Tung U. , Taiwan lRotor Dynamics
lMechatronics
Chang, Yeon-Pun ypchang@cycu.edu.tw Professor Ph.D./M.E., North Carolina State U., USA lThermo-fluidics
Tsai, Ruey-Yih rueyyih@cycu.edu.tw Professor Ph.D./M.E., UCLA , USA lThermo-Fluidics
Shih, Yan-Shin ysshih@cycu.edu.tw Professor Ph.D. in Mechanical and Aerospace Engineering, Utah State University, USA lFatigue predictions
Jong, Wen-Ren wenren@cycu.edu.tw Professor Ph.D. in Mechanical Engineering, Cornell University, USA lCAD/CAM
lPrecision manufacturing and control
Ting, Yung yung@cycu.edu.tw Professor Ph.D./M.E., U. of Texas ,Austin , USA lMechatronics
lRobotics and Automation
Wang, Shih-Ming shihming@cycu.edu.tw Associate Professor Ph.D./M.E., Northwestern U. , USA lMechanical design
lPrecision manufacturing
Chang, Yaw-Jen justin@cycu.edu.tw Assistant Professor Ph.D. in System and Control Engineering, Case Western Reserve University, USA lMEMS system design and processing
Fan, Yi-Hua yihufan@cycu.edu.tw Associate Professor Ph.D./M.E., National Chiao-Tung U. , Taiwan lMotor modeling and control
lMagnetics
Chen, Kuan-Yu gychen@cycu.edu.tw Associate Professor Ph.D. in Mechanical Engineering, National Central University, Taiwan lRobots
lDigital imaging
lMechatronics
Liu, Yi-Hung lyh@cycu.edu.tw Associate Professor Ph.D./M.E., National Taiwan U. , Taiwan lDigital imaging processing
lAutomation and precision inspection
Lee, Yeeu-Chang yclee@cycu.edu.tw Associate Professor Ph.D. in Mechanical Engineering, National Central University, Taiwan lNano/Micro Optics & Heat Dissipation for LEDs, Nano Imprinting Technology, Laser & Its Application
Weng, Huei Chu, hcweng@cycu.edu.tw Assistant Professor Ph.D. in Mechanical Engineering, National Cheng Kung University, Taiwan lSmart Nanomaterial Science, Micro/Nanoscale Thermal-Fluid Science, Power and Energy Science
Chou, Yu-Cheng ycchou@cycu.edu.tw Assistant Professor Ph.D. in Mechanical and Aeronautical Engineering, University of California, Davis, U.S.A. lDynamic Systems and Control, Intelligent Mechatronic and Embedded Systems, Autonomous Mobile Robotic Systems, Parallel Computing, Mobile Agent-Based Computing, Autonomic Computing, Cloud Computing
Ho, Ching-Yuan cyho@cycu.edu.tw Assistant Professor Ph.D. in Electronic Engineering, National Tsing Hua University lNano Technology, VLSI Integration, Electrical Analysis
Lee, Chang-Chun changchunlee@cycu.edu.tw Assistant Professor Ph.D. in Power Mechanical Engineering, National Tsing Hua University lMechanical Designs and Integrations of 3D IC System, Advanced Microsystem Packaging, Computational Solid Mechanics
Lin,Po Ting potinglin@cycu.edu.tw Assistant Professor Ph.D. in Mechanical and Aerospace Engineering at Rutgers, The State University of New Jersey, USA lSimulation and Design of Thermal Systems, Mechanical Design Optimization, Reliability-Based design Optimization, and Multidisciplinary Design Optimization
PUBLICATION LIST

Miaou, S. G. and Chen, S. T., “Automatic Quality Control for Wavelet-Based Compression of Volumetric Medical Images Using Distortion-Constrained Adaptive Vector Quantization, ” IEEE Trans. Medical Imaging, Vol. 23, No. 11, pp. 1417-1429, Nov. 2004.

Miaou, S. G. and Chao, S. N., “Wavelet-Based Lossy-to-Lossless ECG Compression in a Unified Vector Quantization Framework,” IEEE Trans. Biomed. Eng. , Vol. 52, No. 3, pp. 539-543, March 2005.

Miaou, S. G., and Chen, S. T., “A Data Compression Method for Long Sequence of Wireless Capsule Endoscope Images,” J. of Medial and Biological Engineering, Vol. 25, No. 3, pp. 107-116, Sept. 2005.

Chung We Pan, Jung Chuan Chou, Tai Ping Sun, Shen Kan Hsiung, “Development of the Real Time pH Sensing System for Array Sensors”, Sensors and Actuators B, Vol.108, pp. 870-876 2005.

Chu Neng Tsai , Jung Chuan Chou, Tai Ping Sun, Shen Kan Hsiung, “Study on the Sensing Characteristics andHysteresis Effect of the Tin Oxide pH Electrode”, Sensors and Actuators B, Vol.108, pp. 877-882, 2005.

Chung We Pan, Jung Chuan Chou, Tai Ping Sun, Shen Kan Hsiung, “Development of the Tin Oxide pH Electrode by the Sputtering Method”, Sensors and Actuators B, Vol.108, pp. 863-869, 2005. H. F. Lin, J. D. Wu, W. C. Chien, S. W. Chen, H. L. Kao, J.-I. Chyi, and J. S. Chen, “Investigation of Layered Structure SAW Devices Fabricated Using Low Temperature Grown AlN Thin Film on GaN/Sapphire”, IEEE TRANSACTIONS ON ULTRASONICS, FERROELECTRICS, AND FREQUENCY CONTROL, Vol. 52 No. 5, P.923, 2005.

S. W. Chen, H. F. Lin, T. T. Sung, J. D. Wu, H. L. Kao, J. S. Chen, “Synthesis and SAW characteristics of AIN thin films fabricated on Si and GaN using helicon sputtering system,” Electronics Lett., V.39, p. 1691, 2003.

W. Y. Chiu, C. H. Wu, H. L. Kao, and Erik. S. Jeng, “The Optical properties and applications of AIN thin films prepared by a helicon sputtering system”, J. Vac. Sci. Technol., A (20), p.843, 2002.

C. H. Wu, W. Y. Chiu and H. L. Kao, “Textured and Smooth AIN films prepared by Helicon sputtering system,” Electronics Lett., V.37, P.253, 2001.

Ming-Chin KUO, Kuan-Cheng CHIU, Tsai-Hsuai SHIH, Yi-Jen Lai, Chu-Shou Yan, Wei-Kuo Chen, Der-SanChuu, Ming-Chih Lee, Wu-Ching Chou, Syang-Ywan Jen , Yu-Tai Shih and Wen-Ho Lan, “ Optical Properties of Zn 1_ x CdxSe Epilayers Grown on (100) GaAs by Molecular Beam Epitaxy ”, The Japan Society of Applied Physics, p.5145-5150, 2004.

Chien-Sheng Hsieh, Pai-Chu Kao, Chia-Sung Chiu, Chih-Hsueh Hon, Chen-Chia Fan, Wei-Chain Kung, Zih-Wun Wang, and Erik S. Jeng , “ NVM Characteristics of Single-MOSFET Cells Using Nitride Spacers With Gate-to-Drain NOI ” IEEE Transactions on Electron Devices, p.1811-1817, 2004.

C.S. Yang, M.C. Kuo, Y.J. Lai, J. Lee, J.L. Shen, W.C. Chou, and S. Jeng , “ High Reectance ZnTe/ZnSeDistributed Bragg Reector at 570 nm” Chinese Journal of Physics Vol, p.535, 2003.

H. K. Zeng, Y. S. Gou, J. Y. Juang, K. H. Wu, and T. M. Uen, “Effects of Split Gap on The Microwave Properties of YBCO Microstrip Ring Resonators”, Physica C, 341-348, pp. 2665-2666, 2000.

H. K. Zeng, J. Y. Juang, J. Y. Lin. K. H. Wu, T. M. Uen, and Y. S. Gou, “Temperature Dependence of The Penetration Depth and Effective Dielectric Constant measured by YBa2Cu3O7-δ Microstrip Ring Resonators”, Physica C, 351, pp. 97-102, 2001.

H. K. Zeng, A. Hsiao, W. H. Hsu, S. W. Wu, J. Y. Lin. K. H. Wu, J. Y. Juang, T. M. Uen, Y. S. Gou, and J. T.Kuo “Miniaturized 3 GHz Cross-Coupled Planar Microwave Filters,” IEEE Trans. Appl. Supercond., Vol. 14, pp. 107-111, March 2004.

Wen-Yaw Chung, Chung-Hung Yang, Dorota G. Pijanowska, Piotr B. Grabiec, Wladyslaw Torbicz, “ISFET performance enhancement by using the improved circuit techniques,” Sensors and Actuators, B –Chem., Vol.113, Jan. 2006, pp.555-562.

Wen-Yaw Chung, Chung-Hung Yang, Dorota G. Pijanowska, Alfred Krzyskow, Wladyslaw Torbicz, “ISFET interface circuit embedded with noise rejection capability”, Electronics Letters, Vol. 40, No. 18, 2nd September 2004.(SCI,EI)

Wen-Yaw Chung, Chung-Huang Yang, Yaw-Feng Wang, Yi-Je Chan, Wladyslaw Torbicz, Dorota G.Pijanowska, A signal processing ASIC for ISFET-based chemical sensors, Microelectronics Journal, 35, pp. 667-675, Aug. 2004. (SCI, EI)

Chih-Jen Yen, Wen-Yaw Chung and Mely Chen Chi, “Micro-Power Low-Offset Instrumentation Amplifier IC Design for Biomedical System Applications”, IEEE Transactions on Circuits and Systems, Part I. pp. 691-699, Vol. 51, Issue 4 , April 2004. (SCI, EI)

S.H. Huang and Y.T. Nieh, “Clock Period Minimization of Non-Zero Clock Skew Circuits”, in the Proc. of IEEE/ACM International Conference on Computer Aided Design (ICCAD), pp. 809--812, 2003.

Y.T. Nieh, S.H. Huang and S.Y. Hsu, “Minimizing Peak Current via Opposite-Phase Clock Tree”, in the Proc. IEEE/ACM Design Automation Conference (DAC), pp. 182-185, 2005.

S.H. Huang, Y.T. Nieh and F.P. Lu, "Race-Condition-Aware Clock Skew Scheduling", in the Proc. IEEE/ACM Design Automation Conference (DAC), pp. 475-478, 2005.

S.H. Huang and J.Y. Lai, “A High-Speed VLSI Fuzzy Inference Processor for Trapezoid-Shaped Membership Functions”, Journal of Information Science and Engineering. Volume 21, No. 3, pp. 607-626, 2005.

Jiun-Wei Horng, Chun-Li Hou, Chun-Ming Chang, Wen-Yaw Chung and Hung-Yu Wei, “Voltage-mode universal biquadratic filters with one input and five outputs using MOCCIIs,” Computers and Electrical Engineering, vol. 31, no. 3, pp. 190-202, May, 2005. (SCI)

Jiun-Wei Horng, Chun-Li Hou, Chun-Ming Chang, Wen-Yaw Chung, Han-Wei Tang and Yao-Hsin Wen, “Quadrature oscillators using CCIIs,” International Journal of Electronics, vol. 92, no. 1, pp. 21-31, Jan., 2005. (SCI)

Jiun-Wei Horng, “Current conveyors based allpass filters and quadrature oscillators employing grounded capacitors and resistors,” Computers and Electrical Engineering, vol. 31, no. 1, pp. 81-92, Jan., 2005. (SCI)

Chun-Chieh Chen, Zhe-Yang Huang, Che-Cheng Huang & Nan-Ku Lu, “Time-Constant Compensated LNA for Ultra-Wideband Receiver”, 2005 IEEE International Symposium on Intelligent Signal Processing and Communication Systems (ISPACS2005), December 13-16, 2005, Hong Kong, China.

Zhe-Yang Huang, Chun-Chieh Chen, Che-Cheng Huang & Nan-Ku Lu, “Design Of CMOS Low-Noise Amplifier For Low-Band”, The Seventeenth IEEE Asia-Pacific Microwave Conference (APMC’2005),December 4-7, 2005, Suzhou, China.

C. C. Chen, H. W. Tsao, "5V, 8 bit, 100MS/s Fully-Differential CMOS Sample-and-Hold Amplifier",Electronics Letters, Vol.32, No. 4, pp.287-288, 1996.

Hsing-Chung Liang, Wen-Chin Ho, and Ming-Chieh Cheng, “Identify Unrepairability to Speed up Spare Allocation for Repairing Memories,” IEEE Transactions on Reliability, Vol. 54, No. 2, pp.358-365, June 2005.

Hsing-Chung Liang and Chung Len Lee, “Flip-Flop Selection for Mixed Scan and Reset Design Based on Test Generation and Structure of Sequential Circuits,” Journal of Information Science and Engineering, Vol. 16, No. 5, pp.687-702, Sep. 2000.

Hsing-Chung Liang, Chung Len Lee, and Jwu E Chen, "Identifying Invalid States for Sequential Circuit Test Generation," IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, Vol. 16, No.9. pp.1025~1033, Sep. 1997.

Y.-H. Chang??/span>Yu-Ning Wu “Number and DOA Coherent Signas Determination by Eigenvector MatrixOperation,”Chung Yuan Journal, September 2005.

Y.-H. Chang and T.-L. Lin and Chen Wei-Yu“Comparison of two Kinds of Equalizers Based on Eigen-value Decomposition,” Chung Yuan Journal, September 2005.

Y.-H. Chang and T.-L. Lin “Zero-Forcing Blind Equalizer Based on Transformed Eigen decomposition” IEE Electronics Letters 25th, Nov.2004, vol.40, no.24.

Yu T. Su and Li-Der Jeng, “Anti-Jam Capability Analysis of RS-Coded Slow Frequency-Hopped Systems,”IEEE Transactions on Communications, vol. 48, no. 2. pp. 270-281, Feb. 2000.

Fang-Biau Ueng and Li-Der Jeng, “Adaptive CDMA Receiver for Downlink Multiuser Interference Suppression,” Electronics Letters, vol.39, no. 6, pp. 552-553, March 2003.

Fang-Biau Ueng, Li-Der Jeng, Jun-Da Chen and Jia-Yu Yang, “Adaptive Receivers for DS/CDMA MultiuserCommunication in Multipath Fading Channels,” IEICE Transactions on Communications, vol. E88-B, no. 2, pp. 687-697, Feb. 2005.

Hung-Huan Liu, Jean-Lien C. Wu, and Li-Liann Lu, “The Study of Performance Enhancement for Integrated Voice/Data Wireless Networks by Link Adaptation,” Computer Communications Vol. 28, no. 5, March 2005, pp 519-528 (SCI, EI).

Hung-Huan Liu, Jean-Lien C. Wu, and Wan-Chih, Hsieh, “Delay Analysis of Integrated Voice and Data Service for GPRS,” IEEE Communications Letters, vol. 6, no. 8, pp. 319-321, Aug. 2002.(SCI, EI)

Hung-Huan Liu, Jean-Lien C. Wu, and Wei-Yeh Chen, “New Frame-Based Network Allocation Vector for 802.11b Multirate Wireless LANs,” IEE Proceedings - Communications, vol. 149, no. 3, pp. 147-151, June 2002 (SCI, EI)

H. J. Li, T. Y. Liu, and J. L. Leou, “Antenna Measurements in the Presence of Multipath Waves”, Progress inElectromagnetics Research, PIER 30, pp. 157-178, 2001.

T. Y. Liu and H. J. Li, “A New Timing and Phase recovery Algorithm for the Fading Dispersive Channel”, IEICE Trans. Commun., Vol. E84-B, No.2 Feb. 2001, pp. 172~179.

H. J. Li and T. Y. Liu, “Comparison of Beamforming Techniques for W-CDMA Communication System”, IEEE Trans. Vehicular Technol, Vol. 52, No. 4, July 2003, pp. 752~760.

C.L. Hou, C.C. Huang, Y.S. Lan, J.J. Shaw, and C.M. Chang, “Current-Mode and Voltage-Mode UniversalBiquads using a Single Current-Feedback Amplifier,” INTERNATIONAL JOURNAL of ELECTRONICS, Vol. 86, No. 8, pp. 929-932, 1999.

C.L. Hou, W.J. Hwang, J.J. Shaw, C.C. Huang, and Y.H. Chen, “CCII-based Minimum-Phase Floating Admittance Function Simulators employing a Current-Mode Filter," INTERNATIONAL JOURNAL of ELECTRONICS, Vol. 87, No.11, pp. 1331-1339, 2000.

C.L. Hou, S.N. Yeh, and C.C. Huang, “A Synthetic Network Using Current Conveyors of the Open-circuit Impedance Matrix of a Linear Time-invariant Multiport ,” INTERNATIONAL JOURNAL of ELECTRONICS , Vol. 91, No.3, pp. 165-174, 2004.

Chih-Hung Lee; Wen-Yu Fu; Jun-Chiao Chang; Chin-Huei Wang and Tsai-Ming Hsieh(2005),“Interconnection Driven Multistage Hierarchical Floorplanning”, Chung Yuan Journal, Vol.33 , No.1, pp8.5-93.

Chin-Hui Wang; Yung-Ching Chen; Tsai-Ming Hsieh; Chih-Hung Lee; Hsin-Hsiung Huang (2005),“ A New Congestion and Crosstalk Aware Router”, ISCAS 2005 , Kobe, Japan. (EI)

Chih-Hung Lee;Chin-Hung Su;Shih-Hsu Huang;Chih-Yuan Lin;Tsai-Ming Hsieh (2005), “Floorplanning with Clock Tree Estimation”, ISCAS 2005 , Kobe , Japan . (EI)

Jun Cheng Chi, Tsung Hui Huang, Mely Chen Chi , "An IR Drop-Driven Placer for Standard Cells in a SOC Design", IEEE International SOC Conference, pp. 29-32., 2005.

Yu-Hsiung Huang, Mely Chen Chi, "Low-Power Driven Standard-Cell Placement Based on Mutlilevel Force-Directed Algorithm", IEEE International SOC Conference, pp.145-146, 2004.

Chih-Jen Yen, Wen-Yaw Chung, and Mely Chen Chi, "Micro-Power Low-Offset Instrumentation Amplifier IC Design for Biomedical System Applications", IEEE Transactions on Circuit and Systems-I: Regular Papers, Vol. 51, No. 4, pp. 691-699, April 2004.

Slo-Li Chu, Tsung-Chuan Huang; SAGE: A Comprehensive Parallelizing Framework for Processor-in-Memory Architectures; Journal of Systems Architecture; Volume 50, Issue 1, Pages 1-15; (January 2004,); Elsevier Science, (SCI, EI)

Slo-Li Chu , SBATCH: An Integrated Statement-Based Parallelizing Compiler for Tightly-Coupled Heterogeneous Environments; Chung Yuan Journal; Volume 32, No. 1, Pages 91-101 (March 2004).

Slo-Li Chu, Tsung-Chuan Huang, Lan-Chi Lee; Improving Workload Balance and Code Optimization on Processor-in-Memory Systems; Journal of Systems and Software; Volume 71, Issues 1-2, Pages 71-82; (April 2004); Elsevier Science. (SCI, EI)

Chang YH, Hardesty LA, Hakim CM, Chang TS, Zheng B, Good WF, Gur D, “Knowledge-based computer-aided detection of masses on digitized mammograms: A preliminary assessment. Medical Physics, Vol. 28, No. 4, p.455-461, 2001.

Chang YH, Wang XH, Hardesty LA, Chang TS, Poller WR, Good WF, Gur D, “Computerized assessment of tissue composition on digitized mammograms,” Academic Radiology, Vol. 9, No. 8, p.899-905, 2002.

Chang YH, Good WF, Zheng B, Hardesty L, Hakim C, Gur D, “Integrated density of a lesion: A quantitative,mammographically- derived, invariable measure,” Medical Physics, Vol. 30, No. 7, p.1805-11, 2003.

Liu HM, Tsai MT, Chang YH, “Evaluation of interpolation methods used for image resizing techniques”, Chung Hua Journal of Science and Engineering, Vol. 3, No. 5, p.43-49, 2005

Y.-C. Tseng, M.-H. Yang, and C.-H. Chang "A Recursive Frequency-Splitting Scheme for Broadcasting Hot Videos in VOD Service," IEEE Trans. on Communications, Vol. 50, No. 8, Aug. 2002, pp. 1348-55. (SCI, EI)

M.-H. Yang, Y.-C. Tseng, M, -S. Jian, and C. Lin "Multi-Node Multicast in Three and Higher Dimensional Wormhole Tori and Meshes with Load Balance," Journal of Information Science and Engineering, special issue on Parallel and Distributed Systems, Vol. 18, No. 6, pp. 959-980. (SCIE,EI)

M.-H. Yang, and Y.-C. Tseng "A Borrow-and-Return Model to Reduce Client Waiting Time for Broadcasting-Based VOD Services," IEEE Trans. On Broadcasting, Vol. 49, No. 2, June 2003, pp. 162-169. (SCI,EI)

Tsan-Ming Wu, “Generation of Nakagami-m fading channels,” in Proc. IEEE Veh. Technol. Conf.,Melbourne , Australia , May. 2006.

Tsan-Ming Wu and Yi-Huang Lai, “Performance of alpha-EM-MLSE receivers over frequency-selective fading channels,” in Proc. IEEE Veh. Technol. Conf., Dallas , September 2005.

Tsan-Ming Wu, and Chung-Hua Chuang, “Performance of digital delay-lock loops for direct-sequence spread-spectrum signals over Nakagami-m fading channels,” in Proc. IEEE Int. Conf. Commun., Seoul, Korea, May 2005.

Wei-chih Hu; Liang-Yu Shyu; ChingTi Tai; Tsai Kao (2005), “Analysis the Linking of Electrical Potential in The Study of Atrial Fibrillation Termination”, Computer in Cardiology, Vol.32 , No.0 p.33-36. , (EI)

Shyu, L.Y., Wu, Y.H. and Hu, W.C. (2004), “Using Wavelet Transform And Fuzzy Neural Network for VPC Detection From the Holter ECG”, IEEE Trans. Biomed. Eng, Vol.51 , No.7 p.1269-1273. , (SCI)

Shyu, L.Y., Lin, Y.S., Liu, C.P. and Hu, W.C. (2004), “The Detection of Impedance Cardiogram Characteristic Using Wavelet Transform”, Computers in Biology and Medicine, Vol.34 , No.2 p.165-175. , (SCI)

Weng, CS; Hung, LY; Shyu, LY; Chang, YH (2004), “A Study of Electrical Conductance of Meridian in the Obese During Weight Reduction”, The American journal of Chinese medicine, Vol.32 , No.3 p.417-425. , (SCI)

Ching-Sung Weng; Shen-Hwa Shu; Chun-Chung Chen; Yuh-Show Tsai; Wei-Chih Hu; Yung-Hsein Chang (2005), “The Evaluation of Two Modulated Frequency Modes of Acupuncture-Link TENS on the Treatment of Tennis Elbow Pain”, Biomedical Engineering Applications, Basis and Communications, Vol.17 , No.5 p.236->242. , (EI)

Cheing-Sung Weng;Yuh-Show Tsai; Che-Yen Yang (2004), “Using Electrical Conductance as the Evaluation Parameter of Pain In Tatients with Low Back Pain Treated By Acupuncture-Like TENS”, Biomedical engineering-Applications, Basis and Communications,, Vol.16 , No.4 p.41-48.

Kuo CD;Chen GY; Yang MJ; Lo HM;Tsai YS (2000), “Biphasic changes in autonomic nervous activity during pregnancy”, British Journal of Anaesthsia, Vol.84 , No.0 p.323-329. , (SCI)

Kao, Tsair; Lu, Chih-Cheng; Liu, Jian-Hung; Hu, Wei-Chih; Tai, Ching-Tai; Tso, Han-Wen (2005), “Independent component approach to the analysis of epicardial atrial electrograms of electrically induced atrialfibrillation”, Journal of Medical and Biological Engineering, Vol.25 , No.3 p.93-97. , (EI)

Wei-chih Hu; Liang-Yu Shyu; ChingTi Tai; Tsai Kao (2005), “Analysis the Linking of Electrical Potential in The Study of Atrial Fibrillation Termination”, Computer in Cardiology, Vol.32 , No.0 p.33->36. , (EI)

LY Shyu; YH Wu; W. Hu (2004), “Using Wavelet Transform and Fuzzy Neural Network for VPC Detection from the Holter ECG”, IEEE Transaction on Biomedical Engineering, Vol.51, No.07 p.1269-1273. , (SC)

PROJECT LIST
Jeng-Shung Huang
National Science Council:
  1. The Study of Ultra-Precision Non- MEMS Miniaturization Manufacturing(1/3).
  2. Theoretical analysis and experimental study of the next-generation high-stiffness hydrodynamic bearing for optical disc drives(1/3).
  3. The theoretical analysis/development and experimental study of a novel fluid-film bearing for optical drive spindles.
  4. Dynamic Modeling on Hysteresis Effects in Piezoelectric Structures via Preisach Model and Subsequent Robust Control Designs(2/2).
  5. The theoretical analysis/development and experimental study of a novel fluid-film bearing for optical drive spindles.
  6. Dynamic Modeling on Hysteresis Effects in Piezoelectric Structures via Preisach Model and Subsequent Robust Control Designs(1/2).
  7. Drop analysis and simulation experimental validation on the thin-walled consumer components.
Yeon-Pun Chang
National Science Council:
  1. An Investigation of the Rotor Rubbing for Micro Gas-turbine.
  2. A study of particulate Deposition Rates of Heat Exchangers.
Ming Chang
National Science Council:
  1. 3D nanorobotic manipulation system inside a scanning electron microscope??/span>1/2??/span>.
  2. The construction of an internet dynamic learning and maintenance system(2/3).
  3. The development of a low-power laser acupuncture eye piece.
  4. TFT-Array Engineering Dynamic Learning and Prognostic System(2/3).
  5. The construction of an internet dynamic learning and maintenance system(1/3).
  6. The development of a low-power laser acupuncture eye piece.
  7. An Integration Study for the Design of Micromixers and the Inspection of Mixing Efficiency(2/2).
  8. TFT-Array Engineering Dynamic Learning and Prognostic System(1/3).
  9. The Implementation of a High Speed 3-D Foot Scanner.
  10. An Integration Study for the Design of Micromixers and the Inspection of Mixing Efficiency(1/2).
  11. A Design of Nano-Precision Micro-Interferometer and its Applications in 3D Profilometry.
Yuan Kang
National Science Council:
  1. Study in lubrication charactertics of precise machine using diamond nano-particles as oil additives.
  2. The charactertics study and system design of sliding bearings using diamond nano-particles asadditives of oil lubrication.
  3. Analytses and Experiments of Mechanical Properties of Micro/Nano Systems.
  4. Investigation in ELID technology for ultra-precision mirror machining.
  5. Design of silencer for dry pump.
  6. Studies in Hybrid Oil Lubication.
  7. Automatic unbalance-correction of micro gas-turbine during operation by using neural network.
  8. Performance establishment and design review for submicro centerless grinding machine.
Jyh-Tong Teng
National Science Council:
  1. A Study on the Thermo-Fluidic Phenomena of Microchannels with Clearance at the Top.
  2. A Study on the Thermal-Fluidic Behavior of Fluid in a Microchannel(??/span>).
  3. A Study on the Thermal-Fluidic Behavior of Fluid in a Microchannel(Π).
Shia-Chung Chen
National Science Council:
  1. Integration of Hot Runner with SCF Micro Cellular Foaming for Injection Molding Optical Parts to Improve Their Performance in Optical Guidance.
  2. Investigation of High-depth Thermoforming Technology and In-Mold Decoration on PC film used for the Development of Display Panel.
  3. Study and Establishment of System Analysis, Design, Manufacturing and Inspection for Micro/Nano Products (1/3).
  4. Study and Establishment of System Analysis, Design, Manufacturing and Inspection for
  5. Micro/Nano Products (1/3). 1st sub-projec: The Research of the Molding Process with LIGA-Like Method in Nano/Micro Products.
  6. Studies on Composite Molding Technology of Micro Featured Optical-electronic Products (3/3) 1st sub-project??/span>Study on Composite Molding Technology of In-mold Decoration (IMD) and Molded Interconnect Devices (MID) Applied to Micro-Featured Parts.
  7. Studies on Composite Molding Technology of Micro Featured Optical-electronic Products (3/3).
  8. Study and Establishment of Injection Mold Surface Rapid Heating Control System.
  9. Studies on Composite Molding Technology of Micro Featured Optical-electronic
  10. Products (2/3) 1st sub-project??/span>Study on Composite Molding Technology of In-mold Decoration (IMD) and Molded Interconnect Devices (MID) Applied to Micro-Featured Parts .
  11. Studies on Composite Molding Technology of Micro Featured Optical-electronic Products (2/3).
  12. Study on Injection Molding Process of Fucell Plate with Micro features.
  13. Studies on Composite Molding Technology of Micro Featured Optical-electronic Products (1/3).
  14. Develop of Two-Component Injection Molded Electrical Switch on Display Panel
  15. Studies on Composite Molding Technology of Micro Featured Optical-electronic Products (1/3) 1st sub-project??/span>Study on Composite Molding Technology of In-mold Decoration (IMD) and Molded Interconnect Devices (MID) Applied to Micro-Featured Parts.
Cheng-Hsing Hsu
National Science Council:
  1. Integrated Building of Fan Performance Curves and the Optimum Search Method of Database.
  2. The Study of Inertia Forces Effects on a Long Bubble Profile and Driven Fluid Flow in a confined Flat Channel.
  3. A System Design of a Water Tunnel for 3C Products Testing.
Ruey-Yih Tsia
National Science Council:
  1. A Study of Particle Transport Mechanisms in Convection Flow Fields.
  2. A Study of Particle Transport Mechanisms in Convection Flow Fields.
  3. A Study of the Electromagnetic Effect on particle Deposition Rate in a Convection Flow.
Yan-Shin Shih
National Science Council:
  1. Coupling Analysis of Vibration and Fatigue Crack Growth for the Flexible Connecting Rod with the Breathing Crack in a Crank-Slider Mechanism.
Wen-Ren Jong
National Science Council:
  1. Studies on Composite Molding Technology of Micro Featured Optical-Electronic Products-Studies on Molding and Analysis Technology of Micro-Featured High Density Flip-Chip Packages(1/3).
  2. Studies on Composite Molding Technology of Micro Featured Optical-Electronic Products-Studies on Molding and Analysis Technology of Micro-Featured High Density Flip-Chip Packages(2/3).
  3. Study on Analysis of Injection Molding and Process Monitoring Technology for Optical Lens.
  4. The Optimal Analysis for Molding of MT-RJ Ferrule.
  5. Studies on Composite Molding Technology of Micro Featured Optical-Electronic Products-Studies on Molding and Analysis Technology of Micro-Featured High Density Flip-Chip Packages(1/3).
Yung Ting
National Science Council:
  1. Development of Integrated Driver-Controller Digital Servo system.
  2. Development of the Load/Unload System for Electro Plating of Semiconductor Application.
  3. Development of A Linear Transport System Using Ultrasonic Traveling Wave.
  4. Study in Development of Servosystem for Ultra-precision Tool Machine with Diamond Cutter.
  5. Development of A Rapid-Light PCB Material Handling System.
  6. Development of A 6 DOF Micro Positioning System.
Chang-Po Chao
National Science Council:
  1. Research and implementation of the intelligent autotuning servo system of a optical pickup(1/3).
  2. Modeling, experimental study and optimization on magneto-electro-mechanical systems of micro speakers.
  3. Research on the core technology of a nano-optomechtronic inspection and manipulation system with the function of rela-time monitoring(1/3).
  4. The theoretical development and experimental study of a novel semi-active automatic balancer system.
  5. The theoretical development and experimental study of a novel semi-active automatic balancer system.
  6. Sound simulation and experimental validation on an air closed sound field stimulated by a micro-speaker.
Shih-Ming Wang
National Science Council:
  1. The Study and Development of control parameter auto-tuning for CNC Controller.
  2. Study and development of an on-machine high-precision micro inspection and error correction System??/span>2/2??/span>.
  3. The Study and Application of a new Master-Slave Control Method for High-Speed CNC Machine Tools.
  4. An Intelligent and Internet-base remote Diagnosis and Monitoring System for Process Accuracy of Photolithography Process??/span>2/3??/span>.
  5. Study and development of an on-machine high-precision micro inspection and error correction System??/span>1/2??/span>.
  6. Study of Control of Stick-Slip Friction for High-Precision CNC Machining Centers.
  7. An Intelligent and Internet-base remote Diagnosis and Monitoring System for Process Accuracy of Photolithography Process??/span>1/3??/span>.
  8. Development of tracking- and contouring-accuracy calibration systems for 5-axis machine tools and the study of tuning of control parameters.
  9. A Study of Optimal Configuration Design, Accuracy Analysis and Hybird Control of Machine Accuracy for RRTTT Type 5-Axis Machine Tools.
Shiu-Wu Chau
National Science Council:
  1. Numerical Study on Electrode Erosion of Well-Type DC Plasma Torch.
  2. A Study on Meshfree Particle Method to solve Fluid Mechanics Problem (I).
  3. Studies on Simulation Methods for Composite Molding Technology of Micro Featured Optical-electronic Products (3/3).
  4. Studies on Simulation Methods for Composite Molding Technology of Micro Featured Optical-electronic Products (2/3).
  5. Studies on Simulation Methods for Composite Molding Technology of Micro Featured Optical-electronic Products (1/3).
  6. Innovative Structure Design of High Efficiency Air Jet Interlacing for Texturing of Synthetic Fiber.
Yaw-Jen Chang
National Science Council:
  1. Advanced Process Control for Deposition and Etching (2/3).
  2. Development of pharmaceutical Biochip.
  3. Advanced Process Control for Deposition and Etching (1/3).
  4. Mix-and-Match Techniques for Lithography Overlay.
  5. Analysis of Overlay Error.
Yi-Hua Fan
National Science Council:
  1. Development of fully-automatic assembly technology for anti-electromagnetic wave component of cellular phone and system integration.
Yi-Hung Liu
National Science Council:
  1. Development of fully-automatic assembly technology for anti-electromagnetic wave component of cellular phone and system integration.
  2. TFT-Array Engineering Dynamic Learning and Prognostic System-Subproject Development of the Process and Equipment Diagnostic System base on Visual and Data Mining Techniques(2/3).
  3. Study on the Multi-view Face Recognition Using Kernel-based Representations and Fuzzy Support Vector Machines.
  4. Study on the multi-view face detection in images using soft-computing approach.
  5. TFT-Array Engineering Dynamic Learning and Prognostic System-Subproject Development of the Process and Equipment Diagnostic System base on Visual and Data Mining Techniques(1/3).