臺灣博碩士論文加值系統

現今物聯網無遠弗屆，影響了生活中的許多面向。工業物聯網的崛起及普及將引領第四次的工業革命(工業4.0)。該技術基於物聯網的技術，架構出完善的智慧工業環節。然而但目前在軟硬體上未有一標準框架，可以在不同類型的工業機具上共用，使得開發工業4.0機具的時程、成本與效率都有提昇空間。因此本文設計並實作一個適用於不同類型物聯網工業機械系統之軟硬體框架。該框架將本地終端機械裝置統整為各變數，再將變數整合為雲端之參數，提供遠端存取。此架構可大幅提升智慧機械的開發效率。為證明此框架的應用彈性，本文實作一個終端裝置，其中具有多個機具、模組與運作邏輯，可用來模擬複雜的工業機具。結果表明本文所提出的框架可完善地實作各種物聯網終端裝置。

Nowadays, the Internet of Things is far from ever, affecting many aspects of life. The rise and popularity of the Industrial Internet of Things will lead the fourth industrial revolution (Industry 4.0). The technology is based on the technology of the Internet of Things, and the structure of the smart industry is well established. However, at present, there is no standard framework on software and hardware, which can be shared on different types of industrial machines, which makes the time, cost and efficiency of developing Industry 4.0 machines have room for improvement. Therefore, this paper designs and implements a soft and hardware framework suitable for different types of IoT industrial machinery systems. The framework integrates the local terminal machinery into variables, and then integrates the variables into parameters in the cloud to provide remote access. This architecture can greatly improve the development efficiency of smart machinery. To demonstrate the application flexibility of this framework, this paper implements a terminal device with multiple implements, modules and operational logic that can be used to simulate complex industrial implements. The results show that the framework proposed in this paper can be used to implement various IoT terminal devices.

目錄
摘要 III
ABSTRACT IV
目錄 V
圖目錄 VI
表目錄 VII
第一章 、緒論 1
第一節 、研究背景 1
第二節 、相關文獻 3
第三節 、研究目標 6
第二章 、系統模型 7
第一節 、網路通訊環節： 10
第二節 、邏輯運作環節： 12
第三節 、機構驅動環節： 14
第三章 、系統實作與結果 15
第一節 、硬體實作 17
第一項 、機械部分： 17
第二項 、PCB： 19
第二節 、軟體實作： 21
第一項 、網路通訊環節： 22
第二項 、邏輯運作環節： 25
第三項 、機構驅動環節： 27
第四章 、結論 29
附錄 30
參考文獻 35

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