本篇論文提出「以通信技術及醫療技術為基礎的遠距生理訊號監視器」。本篇論文之主要目的,是要讓身處在遠方距離的醫護人員或病人的家屬,經此生理訊號監視器,即可隨時監看病人的生理訊號,若遇不正常狀況發生時,醫護人員或病人的家屬,即可適時的提供緊急救援。本篇論文分成如下的五大部份說明,分別是:(a)Wi-Fi無線通訊的回顧;(b)生理訊號感知器與量測模組(本文以血壓訊號、血氧濃度訊號、及呼吸速率訊號為例說明);(c)生理訊號的前置處理;(d)Wi-Fi傳送生理訊號至個人電腦(或智慧型手機)暫存;(e)將個人電腦(或智慧型手機)所收到的生理訊號傳送到雲端資料庫儲存。本篇論文提出的遠距生理訊號監視器,有如下的優點:(1)系統容易實現;(2)生理訊號的儲存方式簡單;及(3)生理訊號的辨識正確率高,平均正確辨識率可達92%以上。
This study proposes a "remote biomedical signal monitoring system based on communication technology and medical technology". The main purpose of this thesis is to allow medical personnel or family members of patients who are far away to monitor the biomedical signals of patients at any time through this biomedical signal monitoring system. If any abnormal conditions occur, the medical personnel or the patient's family members, can provide emergency rescue in a timely manner. This study is divided into the following five parts, which are: (a) review of Wi-Fi wireless communication; (b) biomedical signal sensors and measurement modules (blood pressure signals, blood oxygen concentration signals, and respiratory rate signals are as examples for description); (c) pre-processing of biomedical signals; (d) Wi-Fi sends biomedical signals to a personal computer (or smart phone) for temporary storage; (e) the personal computer (or smart phone) sends received biomedical signals to a cloud database for storage. The proposed remote biomedical signal monitoring system has the following advantages: (1) the system is easy to implement; (2) the storage of biomedical signals is simple; and (3) the recognition accuracy of biomedical signals is high, and the average correct recognition rate is high up to 92%.