隨社會進步、科技化、都市化，人力資源也越來越昂貴，生態環境的保護及食品安全問題也逐漸受到重視，深受衝擊的便是一級產業。而在台灣傳統產業中－水產養殖業其生產周期長、勞動強度大、生產效率低且養殖風險大、水體污染嚴重。需調整水產養殖業結構，提高水產品市場競爭力，推動水產養殖業智慧化、自動化的要求比以往任何時候都顯得更為緊迫。
本論文以物聯網技術為基礎，使用目前最新的物聯網晶片來開發一套適合用於養殖的監控系統。管理者可以透過手機即時獲得水環境中的各種參數和設備的工作狀態。利用遠端監測及人機介面的設計，並透過水池環境監控與地面氣象站的即時監控來強化水產養殖之管理，節省用電與降低人工監測之成本，讓傳統養殖邁向智慧化的一環。

With the social advancement, technology and urbanization, human resources are increasingly expensive, the protection of the ecological environment and food safety issues have get more and more attention, the impact is the primary industry. In the traditional industries of Taiwan - aquaculture .Its long production cycle, labor intensity, low production efficiency , aquaculture risks and water pollution is serious. Need to adjust the structure of aquaculture, improve the competitiveness of aquatic products market, to promote the wisdom and automation of aquaculture is more urgent than ever.Based on the Internet of Things technology, the thesis uses the latest Internet of Things to develop a monitoring system suitable for aquaculture. Managers can immediately get through the mobile phone in the water environment in a variety of parameters and equipment working status. The use of remote monitoring and Human-Machine Interface design, and through the aquacluture pool of environmental monitoring and surface weather station to strengthen the real-time monitoring of aquaculture management, saving electricity and reduce the cost of manual monitoring, making traditional aquaculture a part of wisdom.

[1]Sangeetha Rajesh¸ “Ubiquitous energy efficient aquaculture management system,” in Advances in Computing, Communications and Informatics (ICACCI), 2016 International Conference on, 2016.
[2]K. Raghu Sita Rama Raju, G. Harish Kumar Varma, “Knowledge Based Real Time Monitoring System for Aquaculture Using IoT,” in Advance Computing Conference (IACC), 2017 IEEE 7th International, 2017.
[3]Dimitris Geneiatakis, Ioannis Kounelis, Ricardo Neisse, “Security and privacy issues for an IoT based smart home,” in Information and Communication Technology, Electronics and Microelectronics (MIPRO), 2017 40th International Convention on, 2017.
[4]Darko Andročec, Boris Tomaš, Tonimir Kišasondi, “Interoperability and lightweight security for simple IoT devices,” in Information and Communication Technology, Electronics and Microelectronics (MIPRO), 2017 40th International Convention on, 2017.
[5]Markus Miettinen, Samuel Marchal , Ibbad Hafeez, “IoT SENTINEL: Automated Device-Type Identification for Security Enforcement in IoT,” in Distributed Computing Systems (ICDCS), 2017 IEEE 37th International Conference on, 2017.
[6]張志勇、翁仲銘、石貴平、廖文華，“物聯網概論” 2013.
[7]Atkinson，連結國內物聯網生態 台科大工業 4.0 實作中心為智慧生產開拓先機。取自：http://technews.tw/2017/06/27/taiwan-techs-industry-4-0-center-connects-taiwans-iot-ecosystem/.
[8]謝明珊，物聯網促服務業轉型 推動生命週期管理革命。取自：http://www.digitimes.com.tw/iot/article.asp?cat=158&cat1=20&cat2=10&id=0000505326_MD02WN2Z36E5TI52H5UAE.
[9]Bluetooth Special Interest Group (Bluetooth SIG) – BLE。取自：https://www.bluetooth.com/what-is-bluetooth-technology/bluetooth-technology-basics/low-energy.
[10]AT89S52 – Ateml Datasheet。取自：http://www.atmel.com/images/doc1919.pdf.
[11]Ho Cheuk Kin，8051 Microcontroller Project。取自：http://project.wingkin.net/.
[12]程雪，AD不專業教學。取自：https://sites.google.com/view/adupt/%E9%A6%96%E9%A0%81.
[13]黃彥霖，彥霖實驗筆記。取自：http://lolikitty.pixnet.net/blog.
[14]Cooper Maa，繼電器簡介。取自：http://coopermaa2nd.blogspot.tw/2011/03/blog-post_26.html.
[15]林彥宏、林志遠，全球智慧養殖漁業產業代表性案例研究。取自：http://www.biotaiwan.org.tw/download/structure4/Yen/106/%E5%85%A8%E7%90%83%E6%99%BA%E6%85%A7%E9%A4%8A%E6%AE%96%E6%BC%81%E6%A5%AD%E7%94%A2%E6%A5%AD%E4%BB%A3%E8%A1%A8%E6%80%A7%E6%A1%88%E4%BE%8B%E7%A0%94%E7%A9%B6(201612).pdf.
[16]杜宇，「物聯網＋水產養殖」台灣水產將風華再現。取自：http://cwin.com/scpnews/view2.asp?id=7671.
[17]ArcherHuang，Github blog。取自：https://github.com/ArcherHuang/Blog.
[18]MediaTek，LinkIt Smart 7688 Resources。取自：https://docs.labs.mediatek.com/resource/linkit-smart-7688/en.
[19]Michael Huang，LinkIt Smart 7688硬體淺談。取自：http://makerpro.cc/2016/01/linklt-smart-7688-hardware-introduction/.
[20]Michael Huang，LinkIt Smart 7688–OpenWRT操作篇。取自：http://makerpro.cc/2016/02/setting-linkit-smart-7688-openwrt/.
[21]OpenWrt。取自：https://openwrt.org/.
[22]Wiki(2015)，OpenWrt。取自：https://zh.wikipedia.org/wiki/OpenWrt.
[23]Proteus，BMP180模組使用提示-單晶片接線與程式測試。取自：http://ruten-proteus.blogspot.tw/2014/06/bmp180-AT89S52.html.
[24]Proteus，使用單晶片偵測環境溫溼度與環境光源強度。取自：http://ruten-proteus.blogspot.tw/2014/04/5v-1602-lcd-at89s51-dht-11-bh1750.html.
[25]廣州匯承信息有限公司，HC-08模組規格書。取自：http://www.wavesen.com/mysys/db_picture/news3/2016510120101101.pdf.
[26]DFRobot，DFRobot Product Wiki。取自：wiki.dfrobot.com.cn/.