2019-01-012024-05-17https://scholars.lib.ntu.edu.tw/handle/123456789/687352摘要：健康是優質生活的要件，因此提供人們方便使用的健康照護裝置，是現代人享受科技進步的重要期待。此計劃結合本校具有前瞻發展之&#63756;微米技術、IC設計、光電技術、人工智慧運算、生醫感測，開發容易攜帶且可以隨時隨地偵測污染、其他威脅健康的因子與人體狀態之可攜式物聯網裝置，此健康照護之可攜式裝置將可多方位應用於偵測環境汙染、農藥殘留、疲勞駕駛、體溫即時監測、抗體檢驗、生理狀況監測等，係針對環境檢測與生理監測以達到健康照護之先驅科技。計畫主要著重於兩個重要層面，一是針對環境可能危害健康的化學物進行偵測，透過物聯網資料傳送與判斷，提供使用者即時正確的資訊及適當預防方針，二是透過容易隨身攜帶的裝置，隨時檢驗身體生理狀態，提供人們預防疾病的重要訊息。此外，也進一步在學術上，利用本計畫開發之窄頻高功率紅外光技術刺激氣味分子造成分子鍵之震盪，研究人體之嗅覺意識如何解讀氣味分子，探索大腦嗅覺意識的本質。兼具工程與生活應用以及尖端科學研究之意義。<br> Abstract: Good health is essential for high quality of life. Therefore, handy health-care devices are highly expected by people nowadays in order to well enjoy the benefits of civilization enhanced by science and technology. In this regard, this project combines groundbreaking researches of National Taiwan University that include nano- & micro-technology, photonics technology, IC design, artificial intelligence computing, biomedical sensing, and so on. Our goal is to develop portable IoT+ devices that can detect pollutants and health hazards as well as monitor human health conditions at any place and any time. These health-care portable devices can be widely used in various conditions such as detecting environmental pollution, pesticide residues, fatigue driving causes, real-time temperature, antibody test and physiological status monitor, etc. Above all, this pioneering technology aims to achieve the purpose of health care through environmental and physiological monitoring. This research project primarily focuses on two important aspects. One is to detect potential harmful chemicals from the environment. This can be achieved by data transmission, verification, and judgement via IoT networks to provide users timely and correct information as well as appropriate prevention guidelines. The other is that, through these light-weight and portable devices, one can conveniently examine body conditions and obtain important messages to prevent disease or take appropriate actions for health. On the academic side, we also develop the technology of narrow-band, high-power infrared light technology to stimulate odor molecules and further vibrates molecular bonds. In this sense, we can explore how human interprets the smell from the odor molecules, and further investigate the essence of human olfactory consciousness. Hence, this cutting-edge research partakes the significance of engineering, living applications, and advanced scientific discovery.奈微米技術IC設計光電技術生醫感測可攜式物聯網裝置窄頻高功率紅外光技術nano- & micro-technologyIC designphotonics technologybiomedical sensingportable IoT+ devicesnarrow-band and high-power infrared light technology