Master of Biomedical Engineering
所属信息
基本信息
项目时长
2 years申请截止日期
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秋季
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常规
2025/1
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其他
申请信息
GPA要求
3.30
TOEFL要求
95.00
申请材料
GRE not required
特点
生物医学工程系为研究生课程提供研究设施和讲座课程。该系提供生物医学工程理学硕士和哲学博士学位,以及生物医学科学专业的理学硕士和哲学博士学位。学位根据学生的本科准备而不同,前者适用于具有工程或学术类似领域背景的学生,后者适用于生物科学背景的学生。根据个人跨学科研究计划(见考试行为),学生可以在生物医学工程系和大学的其他部门学习和开展他们的研究。生物医学工程系是工程学院和医学与牙科学院的一部分。
Research facilities and lecture courses for graduate programs are offered by the Department of Biomedical Engineering. The Department offers programs leading to the degrees of Master of Science and Doctor of Philosophy in Biomedical Engineering, as well as the Master of Science and Doctor of Philosophy with a specialization in Biomedical Sciences. The degrees differ according to the undergraduate preparation of the student, the former for students with a background in engineering or academically similar areas, and the latter in biological sciences. Under the Individual Interdisciplinary Studies program (see Conduct of Examinations) students may study and carry out their research in the Department of Biomedical Engineering and another department in the University. The Department of Biomedical Engineering is part of both the Faculty of Engineering and the Faculty of Medicine and Dentistry.
课程设置介绍:
The research activities of members of the Department are directed at aspects of biomedical engineering, including but not limited to digital image processing, nano structured biomaterials, in-vivo nuclear magnetic resonance, including vascular imaging, stroke, functional magnetic resonance imaging (fMRI), as well as non-invasive biochemical analysis through spectroscopic methods, MRI of cerebral vascular disease, and restoration of function following spinal cord injury. In addition, research is performed by members of other departments who collaborate with those of the Department in areas that include adaptive controllers in medicine, aerosol inhalation and delivery, assistive technologies, biofilms, biomaterials and drug delivery, biomechanics of bone, biomechanics of walking, biomedical modeling, biophotonic and ultrasonic imaging, bracing and wheelchairs, cardiovascular biomaterials, cell and tissue cryobiology, computational neuroscience, control and restoration of motor movement, functional electrical stimulation, lab-on-a-chip, laser applications in medicine, mathematical modeling of drug delivery, mathematical modeling of the immune system, medical image processing, micro-computed tomography, modeling of biomedical processes, nano-bio-mechanical systems, nanotechnology and drug delivery, nanotechnology in medicine, oral/facial prosthetic reconstruction, orthodontic retraction appliances, rehabilitation engineering, rehabilitation robotics, resorbable implants, scoliosis and spinal column correction, spinal disorder assessment and treatment, therapeutic ultrasound and biomechanics in dentistry, tissue engineering, and ultrasound applications in medicine.
Research facilities and lecture courses for graduate programs are offered by the Department of Biomedical Engineering. The Department offers programs leading to the degrees of Master of Science and Doctor of Philosophy in Biomedical Engineering, as well as the Master of Science and Doctor of Philosophy with a specialization in Biomedical Sciences. The degrees differ according to the undergraduate preparation of the student, the former for students with a background in engineering or academically similar areas, and the latter in biological sciences. Under the Individual Interdisciplinary Studies program (see Conduct of Examinations) students may study and carry out their research in the Department of Biomedical Engineering and another department in the University. The Department of Biomedical Engineering is part of both the Faculty of Engineering and the Faculty of Medicine and Dentistry.
课程设置介绍:
The research activities of members of the Department are directed at aspects of biomedical engineering, including but not limited to digital image processing, nano structured biomaterials, in-vivo nuclear magnetic resonance, including vascular imaging, stroke, functional magnetic resonance imaging (fMRI), as well as non-invasive biochemical analysis through spectroscopic methods, MRI of cerebral vascular disease, and restoration of function following spinal cord injury. In addition, research is performed by members of other departments who collaborate with those of the Department in areas that include adaptive controllers in medicine, aerosol inhalation and delivery, assistive technologies, biofilms, biomaterials and drug delivery, biomechanics of bone, biomechanics of walking, biomedical modeling, biophotonic and ultrasonic imaging, bracing and wheelchairs, cardiovascular biomaterials, cell and tissue cryobiology, computational neuroscience, control and restoration of motor movement, functional electrical stimulation, lab-on-a-chip, laser applications in medicine, mathematical modeling of drug delivery, mathematical modeling of the immune system, medical image processing, micro-computed tomography, modeling of biomedical processes, nano-bio-mechanical systems, nanotechnology and drug delivery, nanotechnology in medicine, oral/facial prosthetic reconstruction, orthodontic retraction appliances, rehabilitation engineering, rehabilitation robotics, resorbable implants, scoliosis and spinal column correction, spinal disorder assessment and treatment, therapeutic ultrasound and biomechanics in dentistry, tissue engineering, and ultrasound applications in medicine.
