Mechanical design and position control of a modular mechatronic device (MechaCell)

2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM) Pub Date : 2015-07-07 DOI:10.1109/AIM.2015.7222623

Stefan Ristevski, M. Çakmakci

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引用次数: 6

Abstract

Manufacturing techniques have advanced exponentially in recent years, providing means for production of smaller and more powerful electronics, which makes it compelling to design small and more powerful robots. Our work focuses on a mechanical design and position control of a modular mechatronic device called MechaCell. Mechacells are designed as modular semi-autonomous devices which can be used alone or part of a pack. In this paper our main focus is on the mechanical design of the Mechacell, especially the locomotion system which uses forces produced by a rotating unbalance that moves in a spherical domain for steering of the Mechacell. As part of the supervisory algorithm an overhead HD camera is used for position tracking of the Mechacell; the data is then sent to the Mechacells through a wireless connection. A proportional integral derivative controller is used as a base controller; then a friction compensation algorithm is added, based on the mathematical model of the Mechacell's locomotion system. Steering and locomotion controller of the Mechacell is validated using a complex motion profile in the developed testbed.

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一种模块化机电一体化装置(mechaacell)的机械设计与位置控制

近年来，制造技术呈指数级发展，为生产更小、更强大的电子产品提供了手段，这使得设计更小、更强大的机器人变得势在必行。我们的工作重点是一个名为mechaacell的模块化机电设备的机械设计和位置控制。mechaacells被设计成模块化的半自主设备，可以单独使用，也可以作为组件的一部分使用。在本文中，我们主要关注的是mechaacell的机械设计，特别是运动系统，它利用在球面上移动的旋转不平衡产生的力来控制mechaacell。作为监控算法的一部分，使用高清晰摄像机对机甲细胞进行位置跟踪;然后，数据通过无线连接发送到mechaacells。采用比例积分导数控制器作为基本控制器;然后在mechaacell运动系统数学模型的基础上，加入了摩擦补偿算法。mechaacell的转向和运动控制器在开发的试验台上使用复杂的运动剖面进行了验证。

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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2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM)

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