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研究生:陳宜斌
研究生(外文):Chen, Yi-Pin
論文名稱:智慧型自行車裝置設計
論文名稱(外文):Smart Bike Device Design
指導教授:王地河
指導教授(外文):Wang, Ti-Ho
口試委員:駱有聲陳萬城
口試委員(外文):Lo, YSChen, Wan-Chen
口試日期:2012-07-21
學位類別:碩士
校院名稱:聖約翰科技大學
系所名稱:電子工程系碩士在職專班
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2012
畢業學年度:100
語文別:中文
論文頁數:92
中文關鍵詞:智慧型自行車即時心率溫溼度感測行動電源
外文關鍵詞:Smart bikeReal-time heart rateHygrometerPower bank
相關次數:
  • 被引用被引用:1
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  • 下載下載:109
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本文研究一種智慧型自行車裝置,此智慧型裝置中包含人體心率感測設計、環境溫溼度、大氣壓力感測、紫外線指數量測、G-sensor 防盜應用設計以及一電力儲存與轉換輸出設計等功能。此裝置並可透過一無線藍芽模組與智慧型手機做結合,將其所有感測數據及應用資訊傳送到智慧型手機上,利用智慧型手機的高速運算能力、大螢幕顯示以及GPRS與WIFI將這些資訊帶入雲端做更多可能之應用。並在自行車運行時透過一小型發電裝置發電,經過電量儲存與轉換後,可供給智慧型裝置電力、夜間照明以及幫智慧型手機做備用電源充電使用。即使一整天在戶外也不用擔心沒電的問題,讓您永遠有用不完的乾淨能源。讓騎乘自行車活動變得更智慧、更舒適。
In this paper, an intelligent bicycle installations, this smart device contains the human heart rate sensor design, environmental temperature and humidity,atmospheric pressure sensor, refers to the outside refers to the number of measurements, G-sensor anti-theft application design and the design of an electric power storage and conversion output. This device can be combined through a wireless Bluetooth module and smart phones do they know the sensor data and applications sent to the smart phone, smart phone's high-speed computing capabilities, large screen display as well as GPRS and WIFI this information into the cloud to do more potential applications. And run through the bike through a small power generators, after a power storage and conversion,can supply the smart device power, lighting and the help of smart phones do standby power charging. Even an all day in the outdoors do not have to worry about no power, so that you never ever use of clean energy. Activities to become
smarter, more comfortable riding a bike.
論 文 摘 要 ....................................................... II
ABSTRACT ......................................................... III
誌謝 .............................................................. IV
目錄 ............................................................... V
圖表目錄 ........................................................ VIII
第一章 緒論 ..................................................... 1
1.1 研究動機 ................................................. 1
1.2 研究目的 ................................................. 1
1.3 論文架構 ................................................. 2
第二章 設計方法與成果 ........................................... 3
2.1 系統架構介紹 ............................................. 3
2.1.1 智慧型自行車架構 ................................... 3
2.1.2 智慧裝置設計說明 ................................... 5
2.1.3 Main MCU STM8L ..................................... 8
2.2 溫溼度計設計 ............................................. 9
2.2.1 設計說明 ........................................... 9
2.2.2 溫濕度簡介 ........................................ 10
2.2.3 TENX MCU TM89P55M ................................. 13
2.2.4 溫溼度感測元件 .................................... 14
2.3 紫外線指數設計 .......................................... 18
2.3.1 設計說明 .......................................... 18
2.3.2 紫外線簡介 ........................................ 19
2.3.3 紫外線感測器 ...................................... 20
2.4 大氣壓力計設計 .......................................... 22
2.4.1 設計說明 .......................................... 22
2.4.2 大氣壓力簡介 ...................................... 22
2.4.3 大氣壓力感測MEMS ................................. 23
2.5 心率感測設計 ............................................ 24
2.5.1 設計說明 .......................................... 24
2.5.2 心電訊號簡介 ...................................... 26
2.5.3 MCU MSP430AFE ..................................... 29
2.6 G-sensor 應用及防盜設計 ................................. 30
2.6.1 設計說明 .......................................... 30
2.6.2 數位加速度計(Digital Accelerometer) ............... 31
2.7 藍芽無線模組設計 ........................................ 32
2.7.1 設計說明 .......................................... 32
2.7.2 藍芽模組 .......................................... 32
2.8 電力儲存與輸出轉換設計 .................................. 34
2.8.1 設計說明 .......................................... 34
2.8.2 鋰離子電池特性說明 ................................ 35
2.8.3 Mixed-Signal MCU IN6053 簡介 ...................... 38
第三章 研究成果 ................................................ 39
3.1 溫溼度計設計成果 ........................................ 39
3.1.1 電路設計 .......................................... 39
3.1.2 實驗結果 .......................................... 41
3.2 紫外線指數設計成果 ...................................... 43
3.2.1 電路設計 .......................................... 43
3.2.2 實驗結果 .......................................... 45
3.3 大氣壓力計設計成果 ...................................... 46
3.3.1 電路設計 .......................................... 46
3.3.2 實驗結果 .......................................... 49
3.4 心率感測設計成果 ........................................ 50
3.4.1 電路設計 .......................................... 50
3.4.2 軟體設計 .......................................... 53
3.4.3 實驗結果 .......................................... 56
3.5 G-sensor 應用及防盜設計成果 ............................. 61
3.5.1 電路設計 .......................................... 61
3.5.2 實驗結果 .......................................... 63
3.6 藍芽無線模組設計成果 .................................... 65
3.6.1 電路設計 .......................................... 65
3.6.2 實驗結果 .......................................... 66
3.7 電力儲存與輸出轉換設計成果 .............................. 67
3.7.1 電路設計 .......................................... 67
3.7.2 實驗結果 .......................................... 70
第四章 結論與未來展望 .......................................... 77
4.1 結論 .................................................... 77
4.2 未來展望 ................................................ 78
參考文獻 ..................................................... 79
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