July 2017 8-10, (of Electrical and Electronics Engineers, or IEEE, Institute) Biomedical Engineering Branch (Engineering in Medicine and Biology Society) (IEEE-EMBS) organized by the Institute of Electrical and Electronics Engineers, the South University of Technology and CAS Key laboratory of health Informatics co-host, OFweek support of high-tech industry portals 11th IEEE-EMBS medical devices and biosensors international Symposium and summer school (MDBS 2017), cum 10th Biomedical and health Engineering international The seminar and summer school ( BHE 2017 ) was successfully held at Southern University of Science and Technology.
With "Wearable Sensing, Bio-robotics and Molecular Imaging for Precision Medicine" ( " wearable device-aware, bio-medical and precision robotics Molecular Imaging") as the theme of the conference Professor Zhang Yuanting invited to go to CAS Key Laboratory Director, Health Informatics chairman of the meeting, at the same time, IEEE-EMBS former chairman, Professor University of Illinois at Urbana-Champaign Liangzhi Pei, president of Nanjing University Institute of Technology School of Nieshu Ming Chong Professor, IEEE, AIMBE, OSA, SPIE Fellow, Professor Pan Xiaochuan University of Chicago, Emory-Georgia Professor Tech Dong of the Tech Cancer Nanotechnology Center , Professor Meng Qinghu, Director of the Department of Electronics, The Chinese University of Hong Kong, Editor-in-Chief of the IEEE Journal of Biomedical and Health Informatics , Professor Fotiadis of the University of Ionian, Professor Simpson of the University of Southampton, and Professor Tan Lihai of the Shenzhen Institute of Brain Science. Professor Ma Hui from Shenzhen Research Institute of Tsinghua University, Professor Cai Xiaochuan from the University of Coro, USA, Professor Ding Lei from the University of Oklahoma, and other 16 international experts from the United States, Britain, Sweden, Greece, Japan, Mainland China / Hong Kong Famous scholars were also invited to participate in the event and presented a wonderful keynote speech.
In addition to 16 conference theme reports, Panel Discussion, etc., the conference also organized exchanges of student essay contests and posters, from Tsinghua University, Fudan University, Harbin Institute of Technology Shenzhen Research Institute, Shenzhen University, Beijing University of Technology, and Chinese Academy of Sciences Shenzhen Advanced Technology Research. The teachers, students, and industry representatives from well-known universities and research institutes such as the Chinese University of Hong Kong, the University of Hong Kong, the University of Hong Kong, the Hong Kong Polytechnic University, and the Guangqi Institute participated in the conference.
During the conference, experts and scholars will be able to wear / implant sensors and equipment, biological robots and bio-simulation, body sensor networks, non-interfering physiological sensing, nano-sensing and nanotechnology for biomarker detection, multi-mode rapid biomedicine Imaging and processing, multi-scale modeling and information fusion, precision medicine in the cardiovascular, nervous system and other major diseases and health informatics applications and other issues have been fully dialogue and exchange, the participants and young scholars actively asked questions The meeting atmosphere is very active.
Lu Chun, chief of the Southern University of Science and Technology, gave a welcome speech at the opening ceremony
Zhang Yuanting, Liang Zhipei, Nie Shuming, Pan Xiaochuan, Meng Qinghu, Professors, Panel Discussion
Computational challenges in adaptive neural technology research
In recent years, neuroimaging techniques are rapidly entering clinical practice, and the medical diagnostic ability of neuropsychiatric disorders and pre-planning of neurological diseases has also been significantly improved. So what are the clinical needs for further development of neuroimaging technology in the next decade? What type of neuroimaging technology can meet such clinical needs? Professor Ding Lei from the University of Oklahoma made a wonderful answer to these hot issues at the meeting. Professor Ding Lei discussed in detail some new concepts and innovation needs in advancing the development of neuroimaging technology, and deeply analyzed the current market demand for wearable neuroimaging equipment. Professor Ding Lei said that wearable devices are constantly emerging and the practicality is gradually improved. In addition to diagnostic analysis, Professor Ding Lei also discussed how to develop new areas of adaptive neuromodulation, which provides a biomedical basis for patients who may have underlying brain disease and provides methods for disease management and treatment.
Micro medical robots are painless and flawless
The research of micro-medical robots has attracted more and more attention and research in recent years. Robotics has made breakthroughs in hardware capabilities and software capabilities. The functions of micro-medical robots can be realized more and more complex. Medical surgery. Some surgical procedures can be performed on the basis of maximizing pain reduction without causing significant external scars. In response to this trend, Professor Meng Qinghu, the head of the Department of Electronics at the Chinese University of Hong Kong, gave a detailed account of how the research on micro-medical robots was launched, and what achievements in the industry have been achieved, and then several cases. The research progress of related teams in micro medical robots is introduced. In the end, Professor Meng Qinghu also made a deep outlook on the future research direction and application potential of micro medical robots.
Multidisciplinary integration in the context of social aging
As we all know, the aging of the population has become one of the common problems faced by all countries in the world. This huge social challenge has gradually extended automation technology to biomedicine and healthcare, especially in the context of Industry 4.0 . The deep integration of automation technology with biomedical engineering and health informatics has become a major trend. Accurate prediction, prevention, and personalized medicine will provide more possibilities for solving the aging population. Professor Pang Zhibo , ABB's chief scientist of the Industrial Internet of Things , said that he is very optimistic about the trend of this technology integration. For example, the high reliability and real-time communication technology of industrial control systems can enable telemedicine (monitoring, diagnosis, surgery, first aid and nursing, etc.). Becoming a reality, because communication reliability and latency were once considered to be a major bottleneck in telemedicine. Similarly, the plant's proven Distributed Control System ( DCS ) can help optimize medical process optimization to the next level. In the speech, Prof. Pang Zhibo introduced some emerging research topics and market trends in the context of “Industry 4.0 †and “Made in China 2025 †and “Healthy China 2030 â€, and gave a concrete demonstration of some of ABB's ongoing projects. . He concluded that cross-disciplinary and interdisciplinary research and collaboration involving the automation community and the biomedical community has become an urgent need driven by current society.
Poster display session Q & A
Participant question
The success of this conference provided the best place for students, scholars and experts in medical research and application fields to communicate and learn. It has played an important role in further upgrading the medical industry and improving the social health care industry. effect.
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