臺灣博碩士論文加值系統

　　本研究使用反射式光學心率感測模組，製作一系統可量測於走跑運動之心率及血氧濃度。
　　本研究由4位受試者量測手指心率，每位執行4次量測，每次時間為70秒，將所得訊號開發成一演算法。接著由3位受試者進行運動心率及血氧濃度訊號量測，其中3位進行走路運動之量測、1位進行跑步運動之量測，同時使用陳柏均(2014)[23]之走跑步數量測系統，同步量測運動走跑訊號的變化，最終與市售手錶進行心率、走跑步數比較。

　　The module of optical heart rate measurement were used in this study to create a system that can conduct walking and running heart rate and blood oxygen measurement. In this study, four subjects measured four times pulse from finger, each times for 70 secends, and then a set of algorithms was then proposed based on the measured data.
　　And then, the three subjects conduct exercising heart rate and blood oxygen measurement, then three of them conduct walking measurement, the other of them conduct running measurement. Use a walking and running steps system of Chen, P. C. (2014) [23], and synchronously measured moving signal. Finally, it was compared with one watch sold on the market regarding the number of heart rate, walking and running steps.

摘要...I
Abstract...II
謝誌...III
目錄...IV
表目錄...VI
圖目錄...VIII
第 1 章 緒論...1
1.1 前言...1
1.1.1 心臟構造與功能...2
1.2 文獻回顧...2
1.2.1 心率量測技術...2
1.2.1.1 心電圖儀與心電圖...2
1.2.1.2 電極式心率量測...3
1.2.1.3 心率帶...3
1.2.1.4 光體積變化描記圖...3
1.2.2 加速度量測...4
1.2.3 血氧濃度濃度計的研究發展...4
1.2.4 心率的研究發展...5
1.2.5 心率量測技術優劣比較...5
1.3 研究動機與目的...6
第 2 章 研究設備與方法...20
2.1 設備架構...20
2.1.1 電源供應器...20
2.1.2 函數產生器...20
2.1.3 示波器...20
2.1.4 SDPPG V2.0...20
2.1.5 濾波電路...21
2.1.6 反射式光學心率感測模組...21
2.1.7 運算放大器...21
2.1.8 微控制器...21
2.1.9 藍芽模組...21
2.1.10 走跑步數量測之系統...21
2.2 實驗方法...22
2.2.1 心率之濾波電路設計與驗證...22
2.2.2 靜態之心率量測實驗...23
2.2.3 靜態之血氧濃度量測實驗...23
2.2.4 動態之心率及血氧濃度同時走跑步數量測實驗...23
2.3 心率數之判斷邏輯...24
2.4 血氧濃度訊號分析...24
2.5 加速度訊號分析...25
第 3 章 結果與討論...47
3.1 靜態之心率量測實驗...47
3.2 靜態之血氧濃度量測實驗...47
3.3 動態之心率及血氧濃度同時走跑步數量測實驗...47
第 4 章 結論...108
第 5 章 未來研究建議...109
參考文獻...110

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