Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Thesis (Ph.D)			◎	◎			◎
Seminar	◎	◎		◎
Seminar on Advanced Biomedical Engineering	◎	◎	◎	◎	◎	◎	◎
Principles of Biomedical Engineering		◎	◎	◎	◎	◎	◎
Materials Sciences and Engineering		◎		◎		◎	◎
Polymer Characterization		◎		◎			◎
Tissue Engineering		◎	◎	◎		◎	◎
Biomedical Polymers		◎		◎			◎
Advanced Topics in Biomedical Polymers				◎			◎
Drug Delivery Systems	◎	◎	◎	◎		◎	◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Degradable Biomaterials		◎	◎	◎	◎	◎	◎
Biomedical Big Data Processing and Analytics	◎	◎	◎	◎
Principles of Medical Imaging Systems		◎	◎	◎		◎	◎
Medical Image Analysis		◎	◎	◎		◎	◎
Medical Database Systems		◎	◎	◎		◎	◎
Medical Electronics		◎		◎			◎
Electrophysiology		◎		◎	◎	◎	◎
Design of Medical Electronic System		◎		◎			◎
Neurophysiology		◎		◎	◎	◎	◎
Mathematics for Biomedical Engineering (1)		◎	◎	◎		◎	◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Mathematic for Biomedical Engineering (2)		◎	◎	◎		◎	◎
Medical Devices Quality System	◎	◎	◎	◎	◎	◎	◎
Medical Microsensor		◎	◎	◎	◎	◎	◎
Nano/micro Engineering in Biomedicine	◎	◎	◎	◎	◎	◎	◎
Vitual Instrument for Biomedicine		◎	◎	◎	◎	◎	◎
Human Anatomy and Physiology	◎	◎		◎		◎	◎
Principles of Clinical Engineering		◎	◎	◎	◎	◎	◎
Nanobioscience			◎	◎		◎	◎
Biomedical Ultrasonics		◎		◎			◎
Hyperthermia-biology，physics and Instrumentation		◎	◎	◎	◎		◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Radiation Physics for Medicine and Biology		◎		◎		◎	◎
Physics for Medicine and Biology		◎		◎		◎	◎
Clinical Gait Analysis: Theory and Application		◎	◎	◎	◎		◎
Optimization in Biomechanical Engineering	◎	◎	◎	◎	◎	◎	◎
Human Movement Analysis		◎	◎	◎	◎		◎
Computer Methods in Human Motion Analysis	◎	◎	◎	◎	◎	◎	◎
Biomechanics of the Human Neuromusculoskeletal System		◎	◎	◎	◎		◎
Experimental Biomechanical Engineering		◎	◎	◎		◎	◎
Cellular Mechanobiology of Ultrasound		◎	◎	◎
Solid Biomechanics		◎	◎	◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Physiological Magnetic Resonance Imaging		◎	◎	◎		◎	◎
Data Mining		◎	◎	◎		◎	◎
Functional and structural MRI of the brain		◎	◎	◎		◎	◎
Human Brain Mapping Methods		◎	◎	◎	◎	◎	◎
Probability and Statistics for Biomedical Engineering		◎		◎
Neuroimaging Reconstruction and Analysis		◎	◎	◎		◎	◎
Patents on Biomedical Engineering		◎	◎	◎		◎	◎
Topics and Methods of Cognitive Neuroscience		◎	◎	◎	◎
Clinical Biomedical Engineering Project		◎	◎	◎
Human Physiology and Anatomy in Biomedical Engineering (Ⅰ)				◎	◎		◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Human Physiology and Anatomy in Biomedical Engineering (Ⅱ)				◎	◎		◎
Topics in skin development and regeneration		◎	◎	◎	◎	◎	◎
Applications of Mems for Cell and Tissue Physiology	◎	◎		◎		◎	◎
Physical Stimulation on Cell and Tissue	◎	◎	◎	◎		◎	◎
Cell and Molecular Biology	◎	◎	◎	◎		◎	◎
Mechanobiology	◎	◎	◎	◎		◎	◎
Optical Microscopy		◎	◎	◎		◎	◎
Laser Principles and Engineering		◎	◎	◎		◎
Fundamentals of Optics		◎	◎	◎		◎
Biomedical Innovation and Commercialization	◎	◎	◎	◎	◎	◎	◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Spine Biomechanics		◎	◎	◎
Scientific Paper Writing for Biomedical Engineering	◎						◎
Development and Practice of Orthopaedic Instruments	◎	◎	◎	◎	◎	◎	◎
Innovative Medical Device Development and Regulation		◎	◎	◎		◎	◎
Special Topics on Innovative Medical Device Development and Regulation	◎	◎		◎		◎	◎
Special Topics on Bio-fabrication and Bio-monitoring	◎	◎		◎	◎	◎	◎
Special Topics on Innovative Medical Device Development and Regulation (Ⅱ)		◎		◎		◎	◎
Topics in Cellular Mechanobiology of Ultrasound		◎	◎	◎
Application of Ultrasound in Regenerative Medicine				◎
Application of Ultrasound in Neural Science				◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Biomedical Wave Propagation		◎		◎
Mechanics of Materials			◎	◎			◎
Introduction to Mechanobiology			◎	◎	◎	◎	◎
Disease-oriented and Transdisciplinary Program of Clinical and Basic Science		◎	◎	◎		◎	◎
Medical Equipment and Devices	◎		◎	◎		◎
Applications of Microcontrollers			◎	◎
Biomedical Polymers			◎	◎	◎
Biomechanics of the Human Neuromusculoskeletal System	◎	◎		◎	◎	◎	◎
Experimental Method of Biomechanical Engineering			◎	◎	◎
Introduction to Tissue Engineering	◎	◎	◎	◎	◎	◎	◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Introduction to Biomaterials		◎	◎	◎		◎	◎
Advanced Biochemistry		◎		◎		◎	◎
Principle of Medical Imaging System			◎				◎
Computer Aided Design and Manufacturing			◎	◎
Machine Learning		◎		◎
Application of Deep Learning in Medical Imaging		◎	◎	◎
Computational Modeling and Analysis in Engineering		◎	◎	◎
Biomedical Microelectromechanical Systems			◎	◎
Moist-healing	◎				◎		◎
Principle and Application of Radiotherapy			◎	◎		◎	◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Drug Delivery Systems	◎	◎	◎	◎		◎	◎
Fundamentals of Biomedical Image Processing		◎	◎	◎		◎
Biomedical Signal Processing			◎	◎			◎
Medical Image Analysis			◎	◎	◎
Strategy For Ageing Society	◎	◎	◎	◎	◎	◎	◎
Design of Medical Electronic System		◎		◎			◎
Neurophysiology		◎		◎	◎	◎	◎
Medical Devices Quality System	◎	◎	◎	◎	◎	◎	◎
Medical Microsensor		◎	◎	◎	◎	◎	◎
Biomedical Ultrasonics		◎		◎			◎
Capabilities \ Core Courses	A. Moral Practice B. Independent and Innovative Thinking C. Integration and Collaboration D. Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management E. Humanistic Care and Respect for Life F. Global Perspective G. Lifelong Learning
	[A]	[B]	[C]	[D]	[E]	[F]	[G]
Human Movement Analysis		◎	◎	◎	◎		◎
Machine Learning in Human Motion Analysis	◎	◎			◎	◎	◎
Applications of Mems for Cell and Tissue Physiology	◎	◎		◎		◎	◎
Biomedical Innovation and Commercialization	◎	◎	◎	◎	◎	◎	◎
Biomedical Wave Propagation		◎		◎
Optical Nanomaterials			◎	◎	◎	◎	◎
Biomedical Sensors			◎	◎	◎	◎	◎
Biomedical Microimplantable Systems			◎	◎
Digital Logic Circuits			◎	◎			◎
Core Capabilities	A Moral Practice	B Independent and Innovative Thinking	C Integration and Collaboration	D Interdisciplinary Expertise in Communication, Engineering, Clinical Medicine, Life Sciences, and Knowledge Management	E Humanistic Care and Respect for Life	F Global Perspective	G Lifelong Learning
Number of Core Courses （Number of All Courses: 109）	28	84	75	105	40	64	82