2003-12-012024-05-15https://scholars.lib.ntu.edu.tw/handle/123456789/666209摘要：（一） 計畫緣起 西元1999年美國國防部之軍事先進技術處Defense Advanced Research Project Agency (DARPA)將其旗下所有計畫之核心技術訂為「電子、光電、及微機電系統(Electronics, Photonics, and MEMS)」。西元2000年美國Mortorola公司宣佈結合微機電(MEMS)技術與無線通訊技術將是該公司長期發展方向之一，同時該公司亦將投資美金50億元來確保該公司於此一重要領域之優勢地位。考量二十一世紀最重要之三大產業當屬生物科技(Biotech)、資訊電子科技(Information Technology)、及通訊科技(Communication Technology)，美國Mortorola公司此一策略實與全球科技發展趨勢相符。而依目前全球技術之發展趨勢來看，奈米及微機電科技將為前述三大領域之基礎科技，其重要性不言可喻。 因應世界科技發展趨勢，我國早於民國八十三年十二月行政院召開第十五次科技顧問會議「精密儀器發展略」，獲得以下結論與建議：「在研究發展方面借重我國電子、資訊產業優勢及現有之基盤技術，發展適合國內<br> Abstract: Wireless Health Advanced Monitoring Bio-Diagnosis System, WHAM-BioS C.-K. Lee NTU Nano-BioMEMS Group National Taiwan University Nano-Electro-Mechanical System Research Center And Inst. of Applied Mechanics/Dept. of Engineering Science & Ocean Engineering National Taiwan University, Taipei, Taiwan Keywords: WHAM-BioS, CRP, optomechatronics system, embedded system, micro power system, biomechanics, micro/nano bio-sampling probe array. Taking WHAM-BioS, which is an acronym of Wireless Health Advanced Monitoring Bio-Diagnosis System, as the platform to pursue cross-disciplinary technologies that can foster fundamental know-how for industries such as precision instrument, medical diagnosis, power supply, etc. Two goals were set for the project. One is to foster new industries and to improve value-add of our industries and the other is to make sure fundamental technologies were generated so as to position the whole team at the top of the knowledge supply chain. It is to be noted that these two goals match perfectly with the mottos established by the team since nine years ago, i.e., “Be Vital To Taiwan” and “Be Famous for Science and Technology.” Research Plan With long-term home care as the primary target, the full project was developed to perform real-time C-Reaction Protein detection in blood serum. Using a miniature RF system, which can then be linked into the GSM/GPRS network for bio-informatics analysis, will then transmit the data obtained forward. All systems are to be powered by a miniature power supply with biocompatible packaging that can harvest electric power from vibration induced by the patient’s body. Related simulation techniques, processing technologies, experimental verifications, design know-how, and prototypes are to be developed in a coherent and systematic way. Research center and team members There are well over 100 members within the team with a healthy mix of faculties, graduate students, and undergraduate students. The majority of the faculty members have been worked together for many important projects including more than 4 major National Science Council University-Industry Collaboration projects for the last 9 years. Coupled these facts with NTU NEMS Center, which was grown out of the NSC Northern Regional MEMS Center, most of the facilities have been established within the center and within the many laboratories set up by the team. Goals: Patents, not only for the full system but also for all the sub-systems, will certainly be a key factor of this proposal. However, it is the fundamental patent and not a set of simple utility patents will be the target of this proposal. With such a strong cross-disciplinary requirement, which includes biochips, nano/micro -electro-mechanical systems (N/MEMS), nanotechnology, wireless system, and miniature power systems, etc., many know-how and interface knowledge will be generated and co-developed with all sectors of the knowledge supply chain. Human先進無線生醫保健監測系統CRP植入微奈米取樣針陣列WHAM-BioSCRPoptomechatronics systemembedded systemmicro power systembiomechanicsmicro/nano bio-sampling probe array.