Laboratory Environment for Algorithms Testing in Mobile Robotics

2019 IEEE 17th International Symposium on Intelligent Systems and Informatics (SISY) Pub Date : 2019-09-01 DOI:10.1109/SISY47553.2019.9111565

Adil Joldic, Elmir Babovic, N. Bijedić, Alin Bejenaru-Vrabie

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引用次数: 1

Abstract

The aim of this research is to create fully functional environment for real-life testing of various algorithms in mobile robotic. Main advantage, beside low-cost, is dealing with challenges of real-life implementation. Unlike simulation environments (e.g. MathLab), this setting will allow researchers to test their path planning, collision detection and other algorithms with real challenges, real robots and real static and dynamic obstacles. Environment is particularly adapted for swarm robotics and any other mobile robotics including 2D and 3D scenarios. Enabling researches to prove their algorithms in this environment allows significantly faster path to real implementation in industry, military and science. Concept is based on OpenCV library and low-cost hardware. Solution is based on visual positioning and motion vector detection. System allows controlling mobile robots via radio communication with the range up to 100m which allows practical application of the system. This research paper should be considered as a part of series of research papers published earlier.

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移动机器人算法测试的实验室环境

本研究的目的是为移动机器人的各种算法的实际测试创造全功能的环境。除了低成本之外，它的主要优势在于应对现实生活中实施的挑战。与模拟环境(例如MathLab)不同，这种设置将允许研究人员在真实的挑战、真实的机器人和真实的静态和动态障碍物中测试他们的路径规划、碰撞检测和其他算法。环境特别适合群体机器人和任何其他移动机器人，包括2D和3D场景。使研究人员能够在这种环境中证明他们的算法，可以大大加快在工业，军事和科学领域的实际实施。概念是基于OpenCV库和低成本硬件。解决方案是基于视觉定位和运动矢量检测。系统允许通过无线电通信控制移动机器人，其范围可达100米，这使得系统的实际应用成为可能。这篇研究论文应该被认为是早期发表的一系列研究论文的一部分。

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 IEEE 17th International Symposium on Intelligent Systems and Informatics (SISY)

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