智慧型遠端監控系統

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姓名

楊鈞皓(Gun-Hao Yang) 查詢紙本館藏

畢業系所

電機工程學系

論文名稱

智慧型遠端監控系統
(Intelligent remote monitoring system)

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至系統瀏覽論文 ( 永不開放)

摘要(中)

近年來物聯網概念興起，具備物聯網的裝置逐漸暴增，就經濟日報提供，今年已達300億個裝置具備物聯網的功能，未來上看五百億個，甚至千億個，數目相當可觀。當物聯網時代來臨，萬物不只是連上網而已，搭載遠端監控系統並且提供具備使用者體驗服務之設計，可說是勢在必行。
人們每天都會面臨到的痛點，到洗手間上廁所時，頓時發現衛生紙用完，亦或是廁間全在使用的窘境；如廁完畢時，按壓洗手乳許多次，卻按不出洗手乳來；洗手間積水或臭味撲鼻等等狀況。設想如何解決上述等等情況發生，並在發生時能得到即時處理，使人們如廁時更加方便與舒適是本篇研究所關切的議題。
本篇論文進行洗手間場域情境分析，歸納出必須設計以及加值服務設計，進行設計思考規劃，在解決問題的同時也必須考量成本及使用者體驗服務。運用電路設計技術、感測器整合技術、印刷電路板技術、3D建模與列印技術、網頁平台開發與行動裝置串接技術進行開發，以達到硬體與雲端服務之串接。若即時偵測到消耗品即將使用完時，會自動啟動通報機制，並可在雲端平台上隨時監控。經過本研究場域實證後，洗手間資訊服務系統變得更加即時、智慧、系統與資訊化。

摘要(英)

In recent years, the concept of Internet arised, and the Internet devices gradually increased. Provided by the Economic Daily, this year has reached 30 billion devices with the functions of the Internet. In the near future, 50 billion or even hundreds of billions will be needed. The demanded number is considerable. When the Internet of Things comes, everything is not just connected to the Internet only, it is imperative to equipped with remote monitoring systems and provide users with experience in the design of the service.
People face the pain every day. For example, when people come to the toilet, suddenly found the tissue run out, or the toilet all in the use of the dilemma; when the toilet is finished, press the hand sanitizer many times, but can not press the hand wash; toilet puddle or smelly smell and so on. How to solve the above problem, and in the event of immediate treatment, so that people are more convenient and comfortable are what we concerned in this thesis.
This thesis carries out the analysis of the toilet scene, summed up must to be designed and value-added service design, design thinking planning, in solving the problem, we must also consider the cost and user experience services. Using circuit design technology, sensor integration technology, printed circuit board technology, 3D modeling and printing technology, web platform development and mobile device series technology to develop, in order to achieve hardware and cloud services in series. If the instantaneous detection of consumables is about to run out, it will automatically start the notification mechanism, and can be monitored on the cloud platform at any time. After this field of study, the toilet information service system becomes more immediate, intelligent, systematic and informative.

關鍵字(中)

★ 遠端監控

關鍵字(英)

論文目次

摘要 I
Abstract II
目錄 IV
圖目錄 V
表目錄 VII
第一章緒論 1
1.1前言 1
1.2研究動機 2
1.3章節概要 3
第二章系統介紹 4
2.1系統概述 4
2.2系統架構概觀 5
2.3智慧型硬體系統介紹 6
2.3.1 智慧型模組使用情境 6
2.3.2 3D建模. 14
2.3.3 無線通訊系統 16
2.4 智慧型感測器介紹 19
第三章軟硬體系統設計 30
3.1 硬體系統架構 30
3.2 韌體設計架構與流程 42
3.3 印刷電路板設計 45
3.4 雲端系統架構 47
3.4.1 雲端系統概述 47
3.4.2 軟體系統開發流程 48
第四章系統架構與實證測試 51
4.1 場域實證環境與設備 51
4.2 系統架構 52
4.3 場域實證 58
4.3.1 場域佈建 58
4.3.2 遠端監控與通報機制 62
第五章總結與未來展望 69
5.1總結 69
5.2未來展望 69
參考文獻 70

參考文獻

[1] J. Agre, L. Clare, “An integrated architecture for cooperative sensing networks,” IEEE Computer Magazine, pp.106–108, May 2000.
[2] I.F. Akyildiz, W. Su*, Y. Sankarasubramaniam and E. Cayirci, "Wireless sensor networks: a survey,” Computer Networks 38, pp.393-422, December 2001.
[3] W.K. Hsieh, W.H. Hsieh, J.L. Chen and C.Y. Lin, "Self-configuration and smart blinding control on IOT applications,” Advanced Communication Technology (ICACT) Conference，Feburary 2016。
[4] P. Corke, T. Wark, R. Jurdak, W. Hu, P. Valencia and D. Moore, “Environmental Wireless Sensor Networks,” Proceedings of the IEEE Invited Paper, pp. 1903-1917, October 2010.
[5] M. Idoudi, H. Elkhorchani and K. Grayaa, “Performance evaluation of Wireless Sensor Networks based on ZigBee technology in smart home”, Electrical Engineering and Software Applications International Conference，pp.1-4, 21-23，March 2013。
[6] A. Anbarasi and M. Ishwarya, “Design and implementation of smart home using sensor network“, In Optical Imaging Sensor and Security International Conference, pp.1-6, 2-3，July 2013。
[7] C. Gomez and J. Paradells, "Wireless home automation networks: A survey of architectures and technologies, " IEEE Communications Magazine, vol. 48, no. 6, pp. 92-101, Jun. 2010.
[8] L. Ye, L. Zhu and Y. Lai, "A solution for low cost and high performance smart home networking", Engineering and Industries (ICEI), IEEE International Conference Chine, pp 1-6, 2011.
[9] W. R. Heinzelman, A. Chandrakasan, and H. Balakrishnan, “Energy-Efficient Communication Protocol for Wireless Microsensor Networks”, IEEE. Published in the Proceedings of the Hawaii International Conference on System Sciences, pp.1-10, January 2000.
[10] P. Bauer, M. Sichitiu, R. Istepanian, “The mobile patient: wireless distributed sensor networks for patient monitoring and care.”, IEEE EMBS International Conference on Infornation Technology Applications in Biomedicine, pp.17-21, November 2000.
[11] H. Wang, J. Wang, "Design and implementation of a smart home based on WSN and AMR", Appl. Mech. Mater., vol. 271-272, pp. 1 485-1489, December 2013..
[12] M. Li and H. Lin, “Design and Implementation of Smart Home Control Systems Based on Wireless Sensor Networks and Power Line Communications”, IEEE Transactions on Industrial Electronics, VOL. 62, NO. 7, JULY 2015.
[13] X. Cao, J. Chen, Y. Xiao, and Y. Sun, “Building-environment control with wireless sensor and actuator networks: Centralized versus distributed,” IEEE Trans. Ind. Electron., vol. 57, no. 11, pp. 3596–3605, Nov. 2010.
[14] J. Li, L. H. Andrew, C. H. Foh, M. Zukerman, and H. H. Chen, “Connectivity, coverage and placement in wireless sensor networks,” Sensors, vol. 9, no. 10, pp. 7664–7693, 2009.
[15] L. Angrisani, M. Bertocco, D. Fortin, and A. Sona, “Experimental study of coexistence issues between IEEE 802.11b and IEEE 802.15.4 wireless networks,” IEEE Trans. Instrum. Meas., vol. 57, no. 8, pp. 1514–1523, Aug. 2008.
[16] L. Tytgat, O. Yaron, S. Pollin, I. Moerman, and P. Demeester, “Analysis and experimental verification of frequency-based interference avoidance mechanisms in IEEE 802.15.4,” IEEE/ACM Trans. Netw., vol. 23, no. 2, pp. 369–382, Apr. 2015.
[17] 林英泓，「網際網路之遠端監控系統」，國立台灣大學，碩士論文，民國90年。
[18] 林昌廣，「嵌入式網路監視系統」，國立交通大學，碩士論文，民國91年。
[19] 朱明茂，「以網際網路為介面之遠端控制系統整合」，國立成功大學，碩士論文，民國89年。
[20] 游矞皇，「遠端監控系統之網路系統研製」，國立交通大學，碩士論文，民國91年。
[21] 朱詳睿，「智慧家庭之遠端監控與服務系統建置」，國立成功大學，碩士論文，民國104年。
[22] 饒哲儒，「智慧感測資訊分析系統-以智慧型居家安全系統為例」，中原大學，碩士論文，民國105年。
[23] 陳相彬，「智慧家庭遠端監控研究與實現」，元智大學，碩士論文，民國96年。
[24] 李晨含，「結合無線通訊網際網路於家庭自動化的應用」，國立成功大學，碩士論文，民國91年。
[25] 河村雅人等，圖解物聯網感測器的架構與原理，吳嘉芳譯，碁峰資訊，台北，民國104年。
[26] 松村慎等，圖解網站建置與開發，許郁文譯，碁峰資訊，台北，民國105年。
[27] 陳啟成，3D打印建模:Autodesk 123D Design詳解與實戰，機械工業出版社，中國北京，民國104年。
[28] Espressif Systems IOT Team: ESP8266EX Datasheet, 2016/06/01.
[29] Interlink Electronics: FSR Datasheet, www.interlinkelectronics.com.
[30] Atmel: ATmega328 Datasheet, 2015/11.

指導教授

莊堯棠

審核日期

2017-7-7

推文