使用模拟激光扫描仪的虚拟环境建模

2019 2nd International Conference on Electrical, Communication, Computer, Power and Control Engineering (ICECCPCE) Pub Date : 2019-02-01 DOI:10.1109/ICECCPCE46549.2019.203763

Hassan M. Qassim, H. Lakany

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引用次数: 1

摘要

通过开发和发明新的辅助技术，可以提高重度运动障碍者的生活质量。在这种情况下，建议开发一种半自动电动轮椅，具有在各种环境中导航的能力，包括不同类型和大小的障碍物。本文描述了一种使用安装在电动轮椅上的距离激光扫描仪来绘制不同环境的方法。这款电动轮椅是在虚拟环境中模拟的，由斯特拉斯克莱德大学神经生理学实验室开发。对环境的映射依赖于测距激光提供的信息。在MATLAB中开发了一种算法，记录测距激光接收到的数据，并利用这些数据绘制环境地图，生成二维地图。建议的算法已经在两个虚拟环境中进行了测试，这些虚拟环境代表了具有不同特征的房间。结果表明，测距激光扫描仪可用于电动轮椅平台，实现对环境的高效测绘。

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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Virtual Environment Modelling using Simulated Laser Scanners

Life quality of people with sever motor disabilities can be improved by developing and inventing new assistive technologies. In this context, it is proposed to develop a semiautonomous electric wheelchair that has capabilities of navigating through various environments which include different types and sizes of obstacles. This paper describes a methodology to use a range laser scanner mounted on an electric wheelchair to map different environments. The electric wheelchair is simulated in a virtual environment and is developed at the Neurophysiology Laboratory of University of Strathclyde. Mapping the environment is dependent on the information provided by the range laser. An algorithm was developed in MATLAB to record the data received by the range laser and use the data to map the environments and produce a 2D map. The suggested algorithm has been tested using two virtual environments representing rooms with different features. The results showed that range laser scanner can be used on an electric wheelchair platform for efficient mapping of the environment.

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2019 2nd International Conference on Electrical, Communication, Computer, Power and Control Engineering (ICECCPCE)

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