| 開課班級Class: | 授課教師Teacher: | 學分數Credits: |
| 四機械三A | 陳念慈 | 3 |
| 課程大綱Course Description: |
| LabVIEW 2020 已融入更強大的無線通訊功能,更具備遠端監控的能力,其新增 Python 程式的編輯功能,是個全新的架構系統,也將成為另一波學習的熱門新領域;程式方面重大改變分別呈現在迴圈結構、系統監控,以及影像處理等增添不少新功能,在硬體支援也較以往版本更加成熟與完備。 每單元皆以循序漸進的方式進行,在各單元中提供範例讓學習者操作與練習,為提高學習效果,因應學習者在練習與編輯程式時,能更清楚分辨程式與資料間連線的狀態,授課教師將授課教材數位影音化上傳在數位學習平台Moodle 3.5版,提供學生參考與練習用。 有別於圖控程式設計與實習一詳細說明過的Expression Node 使用方式與 Formula Node 功能,其兩者皆屬簡單的數學運算節點,皆無法直接讀取或執行Mathlab 程式碼。本課程會介紹兩個特殊結點(Node)的結構,分別是 MathScript Node 與 Python Node;僅有MathScript Node 可點選 Import 後直接將 .m 程式碼載入。 GPIB 廣泛地用於電腦間的通訊,其主要目的是供可程式與連接控制儀器,讓控制者與儀器能更容易搭配應用,而發展出的快速、與標準的通訊界面,可以使儀器與不同的控制器取得連繫,因此讓 IEEE 標準的數位介面可以應用在可程式化的儀器中,最主要的應用範圍包括電子、電機工程及機械工程等不同領域的介面系統。 |
| English Outline: |
| LabVIEW 2020 has incorporated more powerful wireless communication functions and has the ability to remotely monitor. It adds the editing function of Python program, which is a brand-new architecture system. Significant changes in the program are presented in the loop structure, system monitoring, and image processing. Many new functions have been added. The hardware support is also more mature and complete than previous versions. Each unit is carried out in a step-by-step manner. Provide examples in each unit for learners to operate and practice to improve the learning effect. In response to the fact that learners can more clearly distinguish the status of the connection between the program and the data when practicing and editing the program. The instructor uploads the teaching materials digitally and audio-visually to the digital learning platform Moodle 3.5 for students' reference and practice. This course will introduce the structure of two special nodes (Node), namely MathScript Node and Python Node. Different from the use of Expression Node and the function of Formula Node, which are explained in detail in Graphic Control Programming and Practice 1, both of which are simple mathematical operation nodes, and cannot directly read or execute Mathlab code. Only the MathScript Node of this course can directly load the .m code after clicking Import. GPIB is widely used for communication between computers. Its main purpose is to provide programmable and connected control equipment, so that the controller and the equipment can be more easily matched and applied. The fast and standard communication interface developed can connect the instrument with different controllers. Therefore, the IEEE standard digital interface can be used in programmable instruments. The main application areas include interface systems in different fields such as electronics, electrical engineering, and mechanical engineering. |
| 本科目教學目標Course Objectives: |
| 1.應用機械專業知識,解決精密機械與綠能工程問題之能力。 2.具有工作熱忱、社會責任感與守法之人文素養。 3.培養國際觀、終身學習與團隊合作之能力。 |
| 教學型態Teaching Models: | 成績考核方式Grading: |
| 課堂教學+實習 (校內、校外)+遠距輔助教學(同步、非同步) | 平時成績General Performance:80% 期中考Midterm Exam:10% 期末考Final exam:10% 其它 Other:其它 Other:參加 NI CLAD 國際證照考試 10% |
| 參考書目Textbooks/References: |
| LabVIEW 程式設計與應用 - 作者:惠汝生 MATLAB程式設計入門篇(第四版) - 作者:張智星 |
| SDGs指標: |
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| UCAN職業項目: |
| 製程研發人才,工程及技術人才 |
| 課程更新狀態: | 課程匯入時間Import Time:2023-02-01 09:40:56 |
| 最後更新時間Last Modified:2023-02-16 15:36:06,更新人modified by:陳念慈 |