Biomedical optomechatronics is a novel multi-disciplinary science that aims to integrate optical, electronic, mechanic, mechanoelectronic, optoelectronic, and materials fields in order to develop bio-medical instruments for use in life sciences and clinical medicine. Optomechatronic techniques and tools are becoming more widely available solutions for dealing with difficult clinical treatment and therapeutic issues. Some applications of biomedical optomechatronics that are in use today include machines for minimally invasive surgery, disease monitoring devices, laser therapy components, and diagnostic medical imaging devices. Although optomechatronic engineering is increasingly receiving attention from the medical community, there is presently a lack of qualified and trained biomedical optomechatronics specialists. To address this situation, the Graduate institute of Biomedical Optomechatronics (GIBOM) has been established under the College of Biomedical Engineering at Taipei Medical University in 2016. It is our aim at GIBOM to provide students with a broad, flexible, internationally-oriented education rooted in engineering, biological sciences, and medicine. GIBOM has two main training components. Classroom and research lab will focus on pursuing innovative and impactful research, while academic-industry collaboration will give students the opportunity to develop practical technologies for medical imaging, clinical detection, home care, and prevention medicine. After graduation, GIBOM students will have both the academic background and professional skills necessary to seek employment as highly qualified biomedical engineers and scientists. On the other hand, Research and teaching at the GIBOM is multidisciplinary, including mechanical-electrical engineering, mechanical-optical engineering, and optoelectronic engineering, where the corresponding fields can be linked to bioelectromagnetics, bioMEMS and biosensing, cell mechanics and bio mechanical-optical sensing, as well as software development for biooptoelectronic devices, respectively. Furthermore, by integrating different functional 2D nanomaterials into all fields mentioned above, these novel technologies are beginning to find biomedical applications in smart textiles and wearable products.
Program overview
Main Subject
Biological Sciences
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Biomedical optomechatronics is a novel multi-disciplinary science that aims to integrate optical, electronic, mechanic, mechanoelectronic, optoelectronic, and materials fields in order to develop bio-medical instruments for use in life sciences and clinical medicine. Optomechatronic techniques and tools are becoming more widely available solutions for dealing with difficult clinical treatment and therapeutic issues. Some applications of biomedical optomechatronics that are in use today include machines for minimally invasive surgery, disease monitoring devices, laser therapy components, and diagnostic medical imaging devices. Although optomechatronic engineering is increasingly receiving attention from the medical community, there is presently a lack of qualified and trained biomedical optomechatronics specialists. To address this situation, the Graduate institute of Biomedical Optomechatronics (GIBOM) has been established under the College of Biomedical Engineering at Taipei Medical University in 2016. It is our aim at GIBOM to provide students with a broad, flexible, internationally-oriented education rooted in engineering, biological sciences, and medicine. GIBOM has two main training components. Classroom and research lab will focus on pursuing innovative and impactful research, while academic-industry collaboration will give students the opportunity to develop practical technologies for medical imaging, clinical detection, home care, and prevention medicine. After graduation, GIBOM students will have both the academic background and professional skills necessary to seek employment as highly qualified biomedical engineers and scientists. On the other hand, Research and teaching at the GIBOM is multidisciplinary, including mechanical-electrical engineering, mechanical-optical engineering, and optoelectronic engineering, where the corresponding fields can be linked to bioelectromagnetics, bioMEMS and biosensing, cell mechanics and bio mechanical-optical sensing, as well as software development for biooptoelectronic devices, respectively. Furthermore, by integrating different functional 2D nanomaterials into all fields mentioned above, these novel technologies are beginning to find biomedical applications in smart textiles and wearable products.
One of the important factors when considering a master's degree is the cost of study. Luckily, there are many options available to help students fund their master's programme. Download your copy of the Scholarship Guide to find out which scholarships from around the world could be available to you, and how to apply for them.
Located in Taiwan’s capital city, TMU provides our
postgraduate students with cutting-edge research facilities in a culturally
diverse environment to support their pursuit of solutions to health issues,
ideas for biotechnological innovations, and quest for truth in medical sciences.
Hosting
over 4,000 beds, TMU is the largest healthcare system in the Northern Taiwan.
Our researchers and students work closely with frontline clinical professionals
to improve the health of many families, including yours.
Master Program in Graduate Institute of Biomedical Optomechatronics
TMU Main Campus, Taipei, Taiwan
# 351-400QS Subject Rankings
$1797/year Tuition fee(USD)
YesScholarships
Biological SciencesMain Subject Area
Program overview
Main Subject
Biological Sciences
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Although optomechatronic engineering is increasingly receiving attention from the medical community, there is presently a lack of qualified and trained biomedical optomechatronics specialists. To address this situation, the Graduate institute of Biomedical Optomechatronics (GIBOM) has been established under the College of Biomedical Engineering at Taipei Medical University in 2016. It is our aim at GIBOM to provide students with a broad, flexible, internationally-oriented education rooted in engineering, biological sciences, and medicine.
GIBOM has two main training components. Classroom and research lab will focus on pursuing innovative and impactful research, while academic-industry collaboration will give students the opportunity to develop practical technologies for medical imaging, clinical detection, home care, and prevention medicine. After graduation, GIBOM students will have both the academic background and professional skills necessary to seek employment as highly qualified biomedical engineers and scientists. On the other hand, Research and teaching at the GIBOM is multidisciplinary, including mechanical-electrical engineering, mechanical-optical engineering, and optoelectronic engineering, where the corresponding fields can be linked to bioelectromagnetics, bioMEMS and biosensing, cell mechanics and bio mechanical-optical sensing, as well as software development for biooptoelectronic devices, respectively. Furthermore, by integrating different functional 2D nanomaterials into all fields mentioned above, these novel technologies are beginning to find biomedical applications in smart textiles and wearable products.
Program overview
Main Subject
Biological Sciences
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Although optomechatronic engineering is increasingly receiving attention from the medical community, there is presently a lack of qualified and trained biomedical optomechatronics specialists. To address this situation, the Graduate institute of Biomedical Optomechatronics (GIBOM) has been established under the College of Biomedical Engineering at Taipei Medical University in 2016. It is our aim at GIBOM to provide students with a broad, flexible, internationally-oriented education rooted in engineering, biological sciences, and medicine.
GIBOM has two main training components. Classroom and research lab will focus on pursuing innovative and impactful research, while academic-industry collaboration will give students the opportunity to develop practical technologies for medical imaging, clinical detection, home care, and prevention medicine. After graduation, GIBOM students will have both the academic background and professional skills necessary to seek employment as highly qualified biomedical engineers and scientists. On the other hand, Research and teaching at the GIBOM is multidisciplinary, including mechanical-electrical engineering, mechanical-optical engineering, and optoelectronic engineering, where the corresponding fields can be linked to bioelectromagnetics, bioMEMS and biosensing, cell mechanics and bio mechanical-optical sensing, as well as software development for biooptoelectronic devices, respectively. Furthermore, by integrating different functional 2D nanomaterials into all fields mentioned above, these novel technologies are beginning to find biomedical applications in smart textiles and wearable products.
Admission requirements
Exam Scores
Important Dates
Undergraduate
Tuition fee and scholarships
Tuition Fee
Scholarships
Domestic Students
International Students
One of the important factors when considering a master's degree is the cost of study. Luckily, there are many options available to help students fund their master's programme. Download your copy of the Scholarship Guide to find out which scholarships from around the world could be available to you, and how to apply for them.
In this guide you will find:
Where to look for scholarship opportunities
How to apply to scholarships relevant to you
A list of available scholarships around the world
A scholarship application checklist
More programs from the university
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PHD
Located in Taiwan’s capital city, TMU provides our postgraduate students with cutting-edge research facilities in a culturally diverse environment to support their pursuit of solutions to health issues, ideas for biotechnological innovations, and quest for truth in medical sciences.
Hosting over 4,000 beds, TMU is the largest healthcare system in the Northern Taiwan. Our researchers and students work closely with frontline clinical professionals to improve the health of many families, including yours.
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