Chemical Engineering and Materials Program
INTRODUCTION

The International Graduate Program of Materials was set up in 2006 in the Department of Chemical Engineering at Chung Yuan Christian University (CYCU). The Department of Chemical Engineering at CYCU was established in 1955, and was one of the first four departments when the university was founded. In order to offer in-service and continuing education, the Department set up evening classes in 1965. In 1974, the Masters Degree Programs were established, and in the same year, the Doctorate Programs were set up. In 2003, the in-service master class was set up. Up to 2005, the Department had 5824 graduated students, and 452 students graduated from the master class, 18 students graduated from the doctor class. Excellent graduates are working in every sector and acting substantial roles in the domestic chemical industry. At present, the Department has 505 students in the day school, 127 students in the refresh bachelor classes, 72 graduate students in the master’s classes, 25 students in the in-service master classes and 19 students in the doctorate classes.

At present the department has 18 full-time faculties (5 professors, 7 associate professors, 2 assistant professors and 3 lecturers) and 21 adjunct teachers, whose professions cover the 4 sectors: materials, processes, environmental and Biochemical technologies. The Department of Chemical Engineering at Chung Yuan Christian University is renowned for its atmosphere of academic study and outstanding research achievements. At present the department is featured in the research and development of precision materials, cleaning processes, pollution prevention and Biotechnology. It not only gets outstanding performance in such fields but also creates leading technology. The Department has 13 laboratories and has an R&D Center for Membrane Technology and an R&D Center for Environmental Technology. Every year the department gets a research and development fund of about NT$ 40,000,000. Out of these laboratories, the R&D Center for Membrane Technology (CMT) has not only become a key feature of Chung Yuan Christian University , but also developed into an international renowned R&D center. In 2006, the CMT has been recognized as one of the five Center-of-Excellences by the Ministry of Education in Taiwan .

OBJECTIVES
  • Learning Objectives
    The Institute aims to cultivate excellent talents in Chemical Engineering and Materials who have professional knowledge and creativeness and are surefooted, dedicated and have a balanced physical and moral quality, who have the ability in academic study and engineering technology research and development, so as to serve the academia and industry and contribute to society and the country.
    In consideration of the mission of the Institute, the following teaching objectives were adopted to cultivate excellent talents in chemical engineering and materials:
    • To teach the students to establish a solid foundation in the profession, and to improve the ability of the students for further study to cope with the changing science and technology in academia and industry;
    • To train the students` customs of practice and realistic spirit, improve the ability in cross-industry study and the teamwork spirit;
    • To cultivate the students` conscientious working attitude, train students to face challenges, and make innovations.
  • Objective 1:
    To teach the students to establish a solid foundation in the profession, and to improve the ability of the students for further study to cope with the changing science and technology in academia and industry
  • Outcomes:
    • Graduates shall have a solid knowledge basis in physics, chemical, Biology, and mathematics.
    • Graduates shall have computation skills and can solve problems with computers.
    • Students shall have the ability to analyze the mass and energy balance, and the transport phenomena in molecular, micro- and macro- scale systems.
    • Graduates shall understand the development of the science and technology industry and be able to learn new knowledge from time to time.
    • Graduates shall understand the importance of lifelong learning and be willing to dedicate to learning.
  • Objective 2:
    To train the students` customs of practice and realistic spirit, improve the ability in cross-industry study, and the teamwork spirit
  • Outcomes:
    • Graduates shall be able to perform plan preparation and efficient schedule management for engineering practices.
    • Graduates shall have ability in system analysis and process design.
    • Graduates shall have an ability in data collection, data analysis, oral and written reporting.
    • Graduates shall have the ability to require themselves in safe operation.
    • Graduates shall have the spirit of team work and a responsible attitude.
  • Objective 3:
    To cultivate the students` conscientious working attitude, and to train students to face challenges and make innovations
  • Outcomes:
    • Graduates shall understand their responsibility in their profession and ethics.
    • Graduates shall recognize their engineering roles in modern society.
    • Graduates shall have an adequate ability in communication and coordination.
    • Graduates shall have a common knowledge in modern affairs and a basic foreign language ability.
REQUIREMENT

Courses Requirement

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

Elective courses
Special Topics in Membrane I (3)
Special Topics in Membrane II (3)
Bio-chips and Bio-sensors (3)
Advanced Plasma Technology (3)
Advanced Chemical Engineering Kinetics (3)
Numerical Fluid Flow and Heat and Mass Transfers (3)
Polymer Physics (3)
Advanced Physical Chemistry (3)
Advanced process Control (3)
Colloid and Interfacial Science (3)
Advanced Transport Phenomena (3)
Introduction to Electronics (3)

FACULTIES
Name Email Title Education Research Interest Areas
Juin-Yih Lai jylai@cycu.edu.tw Professor Ph.D., ChE. E., Montana State University Membrane Formation Mechanisms
Membrane Separation Applications
Chien-Song Chyang cschyang@cycu.edu.tw Professor Ph.D., ChE. E., Texas Tech University Fluidization, Incineration, Air Pollution Control Device
Meng-Hui Li mhli@cycu.edu.tw Professor PhD, Ch.E. Dept., University of Oklahoma Acidic gases absorption, thermophysical properties measurements and predictions, properties of desiccants and ionic liquids, application of statistical thermodynamics
Hsu Keh-Ying kehying9@hotmail.com Professor Ph.D., ChE. E.,National Tsing-Hua University, Monodispersed polymer porous particle, Chelated resin to metal adsorption, Polymer hydrogel for dehumidifying, Micro porous particle, Preparation of hollow particle
Tsun-Sheng Chang tschang@cycu.edu.tw Associate Professor Ph.D. ChE. Dept, Univ. of California, Santa Barbara , USA Modeling and Analysis of Process
Model Predicated Control, Decoupling Control
Ching-Jung Chuang cjchuang@cycu.edu.tw Professor Ph.D., Ch.E. Dept., National Taiwan University Membrane filtration, Membrane charge determination, Sludge dewatering, Cake filtration
Chung, Tsair-Wang twchung@cycu.edu.tw Professor Ph.D. University of Missouri-Columbia Separation Technology
Biomass Energy Technology
Nanoporous Metal Oxides
Solar Heat Technology
Chun-Lin Cheng chunlin@cycu.edu.tw Associate Professor Ph.D., Ch. E., University of Minnesota V Twin Cities, U.S.A.. Nano-scale Metallization, Low Dielectric Materials, and Organic Semiconductors
Jung-Hui Chen jason@wavenet.cycu.edu.tw Professor Ph.D,Chemical Engineering,University of Tennessee, Knoxville, USA Process systems engineering, including process design for operability, nonlinear control, process monitoring and diagnosis, control loop performance assessment, batch control and iterative learning design.
Ta-Chin Wei tcwei@cycu.edu.tw Associate Professor Ph.D. Ch. E., Pennsylvania State University Plasma surface engineering on polymeric membrane 
Plasma deposition and etching in electronic industry 
Diagnostics and modeling of plasma processes 
Plasma abatement of gaseous pollutant 
Plasma derived nanoparticles
Kuo Lun Tung kuolun@cycu.edu.tw Professor Ph.D. Ch. E. Dept., National Taiwan University Membrane Filtrations, Module Design, Inorganic Membrane, Water Treatment, Bioseparation, Molecular Simulation
Jui-Chuang Wu ray_j_wu@cycu.edu.tw Associate Professor Ph.D. in ChE, University of Delaware (Newark, DE), USA Biosensors, Biochips, Membrane-based lateral-flow test strips, Diffusion simulation of Biomolecules, Bio- and chemical defense materials
Kueir-Rarn Lee krlee@cycu.edu.tw Professor Ph D, ChE , Chung Yuan Christian University, Taiwan Pervaporation, Membrance Module Design, Gas Separation
Yung Chang ychang@cycu.edu.tw Associate Professor University of Washington, Chemical Engineering, Post Dr. Biomaterials and Biomolecular Engineering – zwitterionic science, intelligent Biomedical membrane, antifouling coating, blood separation
Chih-chi Chen ccchenj@cycu.edu.tw Assistant Professor Ph. D. Chemical Engineering Department, National Tsing Hung University Electronic packaging, lead-free solders, semiconductor process, phase equilibria, solid state diffusion
Yu-Shao Chen yschen@cycu.edu.tw Assistant Professor Ph.D. Ch.E., National Taiwan University High-gravity technique, Separation process, Particle micronization
Yi-Feng Lin yflin@cycu.edu.tw Assistant Professor Ph.D., Dept. of Chem. Eng., National Tsing Hua University Nanomaterials, Porous Materials
Inorganic Ceramic Membrane
Antoine Venault avenault@cycu.edu.tw Assistant Professor Ph.D. Ch. Eng. Dept., University Montpellier II, France Formation of films and soft membranes,Low-Fouling Membranes,Membrane Filtration
Chien-Chieh Hu cchu@cycu.edu.tw Professor Ph. D. Chemical Engineering Department, Chun Yuan Christian University Membrane formation and gas separation
Wei-Song Hung wshung@cycu.edu.tw Assistant Professor Ph. D. Chemical Engineering Department, Chun Yuan Christian University Membrane separation, Composite, Polymer processing, Positron science
Wei-Ren Liu WRLiu1203@gmail.com Assistant Professor Ph.D., Dept. of Chem. Eng., National Taiwan University Li-ion batteries, LED phosphors, Graphene
Ta-I Yang taiyang@cycu.edu.tw Assistant Professor Ph.D., Chemical & Biomolecular Engineering, University of Maryland, College Park, USA Magnetic Materials, Nanoparticle Synthesis, Functional Polymer Nanocomposite
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 and Hysteresis 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-San Chuu, 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/ZnSe Distributed 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?雓?u-Ning Wu “Number and DOA Coherent Signas Determination by Eigenvector Matrix Operation,”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 Multiuser Communication 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 in Electromagnetics 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 Universal Biquads 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??6. , (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??273. , (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??75. , (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??25. , (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??42. , (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??8.

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??29. , (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 atrial fibrillation”, Journal of Medical and Biological Engineering, Vol.25 , No.3 p.93??7. , (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??6. , (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??273. , (SC)

PROJECT LIST

Private Colleges and Universities

The Development of Improved Direct Methanol Fuel Cells (DMFC)s Based on Non-fluorinated Proton Exchange Membranes (PEM)s (2003-2007) ---NSC, Taiwan – NRC, Canada Joint Research Programme
On Non-solvent Vapor Induced Phase Separation (2003-2004) --- NSC, Taiwan – CNRS, France Joint Research Programme
Control of the Structure of Polymeric Membranes and Hollow Fibers by Using VIPS (2005-2006) --- NSC, Taiwan – CNRS, France Joint Research Programme
Development of Selective Separation Process of Valuable Biomaterials by Porous Membrane - Sub-project 7: Study on the Mechanism of Membrane Fouling (2003-2007) --- The 21st Century COE Program, “The Nature-Guided Materials Processing,” Nagoya University , Japan

Polymeric Membranes for Fuel Cells: Preparation and Measurement of Membrane Charge (2005-2007)

Taiwan Power Company/Taiwan Power Research Institute
Test and Examination of Nanofiltration Membranes for Wastewater from Fossil Fuel Power Plant (2005-2007)

Taiwan Power Company/Taiwan Power Research Institute
R&D of the Application Technology of Highly-porous PTFE Fabrics (2002-2006)

Yoshimura Ind. Co., Ltd.
Application of ePTFE in Artificial Lung (2003-2004)

Yoshimura Ind. Co.
Developments of Novel Halogen-free Flame Retardants for Polyesters (2003-2004)

Chang Chun Plastics Company ( Taiwan )
Uniformity improvement of Large Area Plasma Reactor (2003-2004)

Mastek
The Effect of Teflon on Guarding Electromagnetic Waves (2003-2004)

Pou Yuen Tech. Electromagnetic Interference between Microwave Plasma and Wireless-LAN (2002-2003)

Compaq
Influence of Modified Packaging Materials and Atmosphere on

The Preserving of Freezing foods and Efficiency of Energy Consumption (2002-2003)

ITRI
Fabrication of Carbon Nanotube using Microwave Plasma (2001-2002)

ITRI
Epoxy Modification with Nano-scaled SiO2 Particles and Imide Compounds (2001-2002)

Chang Chun Plastics Company ( Taiwan )
R&D of the Application Technology of Highly-porous PTFE Woven Filter Fabrics (2001-2002)

Yoshimura Ind. Co