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    題名: 使用大型語言模型進行機器控制指令的自動化生成;Automated Generation of Machine Control Commands Using Large Language Models
    作者: 蔡時富;Tsai, Shih-Fu
    貢獻者: 資訊工程學系
    關鍵詞: 自動程式碼生成;3D列印;機器控制;智慧機器;大型語言模型;Auto Generation;3D Printing;Machine Control;Smart Machines;Large Language Models
    日期: 2024-08-12
    上傳時間: 2024-10-09 17:16:12 (UTC+8)
    出版者: 國立中央大學
    摘要: 本研究探討了如何透過大型語言模型(Large Language Model, LLM),將自然語言轉換為程式碼來控制機器。研究內容涵蓋背景知識、文獻回顧、研究方法、實驗設計與結果。

    在背景知識和文獻回顧部分,首先介紹了大型語言模型的研究現況、智慧機器、人工智慧物聯網的應用場景與3D列印技術的發展現況。接著,回顧了自動程式碼生成在機器控制領域應用、運動學研究與機器人控制與3D列印近年來發展的相關文獻。

    研究方法部分描述了硬體設計的流程細節,包括模型設計軟體、檔案輸出格式、3D列印的使用,以及馬達與開發版的介紹。軟體設計流程方面,介紹了運動模擬環境、運動學開發,與大型語言模型以及其官方應用程式介面的使用,最後,系統架構章節詳細介紹了系統架構圖、系統流程圖等整體程式框架。

    實驗設計與結果部分包含三個實驗。分別為機械臂的基本控制、機械臂應用於畫圖與機械臂在自動運輸車上的應用,其中展示了機械結構設計圖、函數設計、下達指令的格式、實驗過程縮圖以及最後的實驗成效總結。

    而實驗結果顯示,使用大型語言模型生成程式碼來控制機器的方式擁有相當高的準確度,尤其在有較明確的機器函式庫的前提下,更能透過少量的指令輸入,獲得高品質生成效率和準確度。然而,隨著硬體的增多和系統的複雜性增加,也面臨了一些需要克服的機械性失誤。未來的研究將繼續優化系統的穩定性和精確度,進一步提升其應用價值。;This study explores how to use Large Language Models (LLMs) to translate natural language into code to control machines. The research encompasses background knowledge, literature review, research methods, experimental design, and results.

    In the background knowledge and literature review section, the current state of research on large language models, intelligent machines, applications of AI in the Internet of Things, and the development status of 3D printing technology are introduced. Next, relevant literature on the application of automatic code generation in the field of machine control, kinematics research, robotic control, and recent developments in 3D printing are reviewed.

    The research methods section details the hardware design process, including the model design software, file output formats, the use of 3D printing, and an introduction to motors and development boards. Regarding the software design process, the motion simulation environment, kinematics development, and the use of large language models and their official application programming interfaces are introduced. Finally, the system architecture chapter provides detailed descriptions of the system architecture diagram, system flowchart, and the overall program framework.

    The experimental design and results section includes three experiments: basic control of a robotic arm, the application of the robotic arm in drawing, and the application of the robotic arm on an automatic transport vehicle. This section showcases mechanical design diagrams, function design, command formats, experiment process snapshots, and a summary of the final experimental outcomes.

    The experimental results indicate that using large language models to generate code to control machines demonstrates considerable accuracy. Especially when clear machine function libraries are available, high-quality generation efficiency and accuracy can be achieved with minimal command input. However, with the increase in hardware and system complexity, some mechanical errors need to be addressed. Future research will continue to optimize system stability and accuracy, further enhancing its application value.
    顯示於類別:[資訊工程研究所] 博碩士論文

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