Research Interests
Biomedical Instrumentation Design
Non-invasive Measurement and Diagnostics technologies
Bio-signal and parameters analytics
Medical Information System
Telemedicine/Telehealth
2011年10月25日
2011 第7屆「台北國際發明暨技術交易展」 9月29日至10月2日
展覽已經結束了, 在網誌留下紀錄.
2011/0929~2011/10/02. The 7th Taipei International Invention Show & Technomart (Taipei INST).
Booth No. B0224
2011/0929~2011/10/02. The 7th Taipei International Invention Show & Technomart (Taipei INST).
Booth No. B0224
2011年6月9日
Third International Conference on Soft Computing and Pattern Recognition (SoCPaR 2011)
Third International Conference on Soft Computing and Pattern
Recognition (SoCPaR 2011)
Dalian, China
October 14-16, 2011
Technically Sponsored by:
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IEEE Systems Man and Cybernetics Society - Spanish Chapter
IEEE Signal Processing Society, Tainan Chapter
IEEE IEEE Systems Man and Cybernetics Society (pending approval)
Technically Supported by:
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Technical Committee on Soft Computing of IEEE Systems Man and Cybernetics Society
Technical Committee on Granular Computing of IEEE Systems Man and Cybernetics Society
Publication: IEEE
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2011年6月6日
Subdisciplines within biomedical engineering
From Wikipedia, the free encyclopedia
Biomedical engineering is a highly interdisciplinary field, influenced by (and overlapping with) various other engineering and medical fields. This often happens with newer disciplines, as they gradually emerge in their own right after evolving from special applications of extant disciplines. Due to this diversity, it is typical for a biomedical engineer to focus on a particular subfield or group of related subfields. There are many different taxonomic breakdowns within BME, as well as varying views about how best to organize them and manage any internal overlap; the main U.S. organization devoted to BME divides the major specialty areas as follows:
Biomedical Electronics
Biomechatronics
Bioinstrumentation
Biomaterials
Biomechanics
Bionics
Cellular, Tissue, and Genetic Engineering
Clinical Engineering
Medical Imaging
Orthopaedic Bioengineering
Rehabilitation engineering
Systems Physiology
Bionanotechnology
Neural Engineering
Biomedical engineering is a highly interdisciplinary field, influenced by (and overlapping with) various other engineering and medical fields. This often happens with newer disciplines, as they gradually emerge in their own right after evolving from special applications of extant disciplines. Due to this diversity, it is typical for a biomedical engineer to focus on a particular subfield or group of related subfields. There are many different taxonomic breakdowns within BME, as well as varying views about how best to organize them and manage any internal overlap; the main U.S. organization devoted to BME divides the major specialty areas as follows:
Biomedical Electronics
Biomechatronics
Bioinstrumentation
Biomaterials
Biomechanics
Bionics
Cellular, Tissue, and Genetic Engineering
Clinical Engineering
Medical Imaging
Orthopaedic Bioengineering
Rehabilitation engineering
Systems Physiology
Bionanotechnology
Neural Engineering
What is Biomedical engineering
From Wikipedia, the free encyclopedia
Biomedical engineering is the application of engineering principles and design concepts to medicine and biology. This field seeks to close the gap between engineering and medicine: It combines the design and problem solving skills of engineering with medical and biological sciences to improve healthcare diagnosis, monitoring and therapy.
Biomedical engineering is the application of engineering principles and design concepts to medicine and biology. This field seeks to close the gap between engineering and medicine: It combines the design and problem solving skills of engineering with medical and biological sciences to improve healthcare diagnosis, monitoring and therapy.
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