Modeling and Control of an Air Levitation Ball and Pipe Laboratory Setup

2019 7th International Conference on Robotics and Mechatronics (ICRoM) Pub Date : 2019-11-01 DOI:10.1109/ICRoM48714.2019.9071827

Amirreza Tootchi, S. Amirkhani, Ali Chaibakhsh

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引用次数: 5

Abstract

in this paper, design, fabrication, modeling, and control of a low-cost ball and pipe air levitation laboratory system for educational purposes is investigated. Ball and pipe laboratory setup is a dynamic benchmark system, designed to control the position of the ball on a vertical upward airflow that counteracts the gravitational force exerted on the ball without mechanical support. A blower feeds airflow, and the position of the ball is measurable by using an infrared distance meter. In this paper, the design and construction of a ball and pipe system are initially carried out. Detailed mathematical modeling of the process is included, followed by a system parameters identification process, and then a PID control system is developed by establishing a connection between the Arduino circuit and Simulink® real-time toolbox. The performance of the controller represents small overshoot and fast settling time. The system is intended to be used as a benchmark and educational laboratory setup in control systems theory courses. This device would enhance the understandings and skills of students by providing a proper balance between the theoretical concepts and practical knowledge.

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空气悬浮球及管道实验装置的建模与控制

本文研究了一种以教育为目的的低成本球管空气悬浮实验系统的设计、制造、建模和控制。球和管实验室设置是一个动态基准系统，旨在控制球在垂直向上气流中的位置，以抵消施加在球上的重力，而不需要机械支撑。鼓风机提供气流，并用红外测距仪测量球的位置。本文对球管系统进行了初步的设计和施工。首先对该过程进行了详细的数学建模，然后进行了系统参数辨识过程，然后通过建立Arduino电路与Simulink®实时工具箱之间的连接，开发了PID控制系统。该控制器具有超调量小、稳定时间快的特点。该系统旨在作为控制系统理论课程的基准和教育实验室设置。这种方法在理论概念和实践知识之间提供了适当的平衡，从而提高了学生的理解和技能。

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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来源期刊

2019 7th International Conference on Robotics and Mechatronics (ICRoM)

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