基于人工神经网络的移动机器人在虚拟环境中的障碍物检测仿真

Boris Crnokic, Ivan Peko, M. Grubišić
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引用次数: 1

摘要

移动机器人导航主要是一项发生在真实环境中的任务。然而,在虚拟环境中模拟障碍物和机器人运动可以提供显着的优势,并产生良好的结果,如本文所示。通过使用人工神经网络(ann),可以在虚拟环境中开发一个训练有素的系统,该系统可以使用从各种传感器收集的数据来检测障碍物。在这项研究中,红外(IR)传感器和相机被用来收集虚拟环境的信息。使用MatLab Simulink软件包作为训练人工神经网络的工具。在RobotinoSIM虚拟环境中对障碍物的检测和避障进行了仿真。
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Artificial neural networks-based simulation of obstacle detection with a mobile robot in a virtual environment
Mobile robot navigation is primarily a task that occurs in a real environment. However, simulating obstacles and robot movements in a virtual environment can provide significant advantages and yield good results, as demonstrated in this paper. By employing artificial neural networks (ANNs), it is possible to develop a trained system in a virtual environment that can detect obstacles using data collected from various sensors. In this study, infrared (IR) sensors and a camera were utilized to gather information from the virtual environment. The MatLab Simulink software package was used as a tool to train the artificial neural networks. Detection and avoidance of obstacles were simulated in the RobotinoSIM virtual environment.
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