| Summary: | 博士 === 國立中興大學 === 電機工程學系所 === 106 === With the development of the Internet of Things (IoT), many industries have gradually emerged new trends, including various trades and industries such as unmanned factories, unmanned stores, smart healthcare, and smart agriculture. When people gain the benefit of convenience, they must also face a problem at the same time. This problem is the so-called “security”, which includes various aspects such as personal privacy, corporate secrets, business transactions, and personal safety. Therefore, this study aims to build an ECG identity authentication system on the Internet of Things (IoT) system developed by the lab team to improve the overall system security.
The ECG identity authentication system uses dynamic ECG signals as the basis for identification. It has the advantage of proving that a user is a living body and capable of dynamic identification. The system is highly secure because it uses dynamic identification, making it difficult for others to copy and steal. This study uses a single-lead ECG measuring instrument to measure ECG signals. Although the accuracy is not as good as that of other multi-lead measuring instruments, it has an absolute advantage in measuring convenience. Different from the ECG identity authentications of many other published papers, this study focuses on instant measurement and instant recognition. In theory, this system has even reached the same level of fingerprint recognition by gradually recognizing the identity of a person during the measurement process.
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