Objective:This program is established to cultivate high-level academic innovative talents who will conduct scientific research, high-tech development and personnel training in the field of Biomedical Engineering in the future. The talents will be equipped with excellent moral character, solid academic foundation, comprehensive quality, good physical and mental health and international vision, master solid and broad basic theories and systematic and in-depth specialized knowledge in Biomedical Engineering, have the ability to independently engage in scientific research, and achieve innovative results in science or specialized technology.
Curriculum:
Core courses: Frontier of Biomedical Engineering, Frontier of Life Science, Frontier of Chemical Biology
Featured courses: Modern Medical Signal Processing, Biomechanics, Biotechnology Synthesis, Pharmaceutical Chemistry, Molecular Biophysics, Molecular Immunology, Molecular Pharmacology, Molecular Design Methods and Applications, New Drug Synthesis and Technology, Environmental and Viral oncology, and Engineering Physiology.
Career:At present, the training directions of doctoral students in Biomedical Engineering include: Biomechanics and Cardiovascular Medical Engineering, Biomedical Electronics and Bioinformatics, Biotechnology and Tumor Prevention, Chemical Biology and Pharmaceutical Chemistry. Graduates anticipate engaging in scientific research, technological development, personnel training and management work of life science and biomedical engineering in institutions of high-level education, research institutes and high-tech enterprises.
Biomedical Engineering (Master of Engineering)
Training objectives: Tomaster solid basic theories, broad specialized knowledge and necessary management knowledge in the biomedical engineering field; to have advanced methods and modern technological means to solve engineering problems in the biomedical engineering field; to have the ability to independently engage in scientific research, project development, engineering design and engineering management; solve practical engineering problems in the biomedical engineering field and practical engineering problems in related technologies.
Curriculum:
Core courses: Engineering Physiology, Medical Physics, Modern Medical Signal Processing, Biomedical Imaging, Medical Image Processing, Biomechanics, Principles and Applications of Molecular Simulation in Molecular Biology, Molecular Oncology, Pharmaceutical Chemistry, Immunology.
Featured courses: Medical Pattern Recognition and Artificial Intelligence, Intelligent Medical Instrument Design, Biomedical Engineering Numerical Simulation, Biomedical Statistics, Protein Structure and Function, Biochemical Analysis and Biosensors, Drug Synthesis and New Technologies, Biotechnology Synthesis.
Career:Graduates will engage in scientific research, education and management work in scientific research institutes, enterprises and public institutions, institutions of higher education and hospitals.
