Vive for Robotics: Rapid Robot Cell Calibration

2019 7th International Conference on Control, Mechatronics and Automation (ICCMA) Pub Date : 2019-11-01 DOI:10.1109/ICCMA46720.2019.8988631

Morten Andre Astad, M. H. Arbo, E. Grøtli, J. Gravdahl

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引用次数: 7

Abstract

The use of an HTC Vive; a virtual reality (VR) system and its innovative tracking technology is explored in order to create an approximate one-to-one mapping to the virtual representation of a robot cell. The mapping is found by performing hand-eye calibration, establishing a spatial relationship between the inertial frames of the robot cell and the tracking system. One of the main contributions of this article is the development of an open-source Robotic Operating System (ROS) package for VR devices such as the Vive. The package includes automated calibration procedures such that the devices gives a centimetric measurement error in the robot cell. The calibrated system has problems that are related to specific issues of the tracking technology. This article outlines these issues, their cause, and potential fixes in a concise manner. A simple assembly scenario is presented, where the outline of objects in the robot cell are defined by registering points with a Vive tracker. The potential use cases of the calibrated system are limited by its accuracy, and depends on the required tolerances.

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Vive for Robotics:快速机器人单元校准

使用HTC Vive;探索虚拟现实(VR)系统及其创新的跟踪技术，以创建一个近似的一对一映射到机器人单元的虚拟表示。通过进行手眼标定，建立机器人单元惯性系与跟踪系统之间的空间关系，找到映射。本文的主要贡献之一是为VR设备(如Vive)开发开源机器人操作系统(ROS)包。该包包括自动校准程序，使设备在机器人单元中给出厘米测量误差。标定系统存在的问题与跟踪技术的具体问题有关。本文以简洁的方式概述了这些问题、它们的原因和可能的修复方法。给出了一个简单的装配场景，其中机器人单元中物体的轮廓是通过使用Vive跟踪器注册点来定义的。校准系统的潜在用例受到其精度的限制，并取决于所需的公差。

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 Control, Mechatronics and Automation (ICCMA)

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