A competition-based approach for undergraduate mechatronics education using the arduino platform

Fourth Interdisciplinary Engineering Design Education Conference Pub Date : 2014-03-03 DOI:10.1109/IEDEC.2014.6784685

Radhika S. Grover, S. Krishnan, T. Shoup, M. Khanbaghi

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引用次数: 49

Abstract

This paper describes the content of an undergraduate class in mechatronics at Santa Clara University. Designing an undergraduate course in mechatronics poses a challenge as it integrates subareas in mechanics, computer science, electronics and control systems. The problem is compounded when students are from different fields of engineering and have diverse backgrounds and skills. We describe a competition-based framework that has been integrated with rigorous labs to develop skills in core areas that are needed to complete a course capstone project successfully. Students learn the basics of mechatronics and, in the project, develop a mobile robot. The project varies from year to year. Our course is based on the low-cost Arduino platform. This paper briefly discusses pedagogical strategies and tools that have been used at other schools, and then focuses on describing the lecture, laboratory, and project components of our course. The results are encouraging and indicate that our course structure provides an effective means for learning mechatronics.

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基于竞赛的基于arduino平台的本科机电一体化教育方法

本文描述了圣克拉拉大学机电一体化本科课程的教学内容。设计一个机电一体化的本科课程是一个挑战，因为它集成了力学、计算机科学、电子和控制系统的子领域。当学生来自不同的工程领域，拥有不同的背景和技能时，问题就更加复杂了。我们描述了一个基于竞争的框架，该框架与严格的实验室相结合，以开发成功完成课程顶点项目所需的核心领域的技能。学生们将学习机电一体化的基础知识，并在项目中开发一个移动机器人。这个项目每年都不一样。我们的课程是基于低成本的Arduino平台。本文简要讨论了其他学校使用的教学策略和工具，然后着重描述了我们课程的讲座、实验和项目组成部分。结果令人鼓舞，表明我们的课程结构为学习机电一体化提供了有效的手段。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fourth Interdisciplinary Engineering Design Education Conference

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