Study On Mobile Robot Navigation Control By Internal And External Sensor Data With Ultrasonic Sensor

Proceedings. IEEE/RSJ International Workshop on Intelligent Robots and Systems '. (IROS '89) 'The Autonomous Mobile Robots and Its Applications Pub Date : 1989-09-04 DOI:10.1109/IROS.1989.637944

M. Takano, S. Odaka, T. Tsukishima, K. Sasaki

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引用次数: 8

Abstract

A new method to combine internal and external sensor information for stable navigation of an autonomous land vehicle is presented. Usually, vehicle's relative position to its environment is available only at some time interval, because of low sampling rate of the sensor such as vision or ultrasonic sen- sor. Also, summation of wheel rotation is not reliable for position estimation due to wheel slippage. The presented method is an iterative method to minimize the estimation error by using both internal and external sensor information. Mechanical parameters of the vehicle such as tread, effective wheel diameter and slip ratio are also estimated together with position and orientation. This paper deals with a vehicle equipped with an ultrasonic range sen- sor as an external sensor. First, a. general principle of navigation using internal and extemal sensor is described. Secondly, simula- tion and experimental results are presented and evaluated. Both results show that the presented method is useful for guiding an autonomous land vehicle along a desired trajectory.

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基于超声传感器内外传感器数据的移动机器人导航控制研究

提出了一种结合内外传感器信息实现自主车辆稳定导航的新方法。通常，由于视觉或超声波传感器的采样率较低，车辆相对于周围环境的位置只能在一段时间间隔内获得。此外，由于车轮滑移，车轮旋转的总和对于位置估计是不可靠的。该方法是一种利用内外传感器信息来最小化估计误差的迭代方法。车辆的机械参数，如胎面、有效轮径和滑移率，也与位置和方向一起估计。本文研究了一种外接传感器为超声波测距传感器的车辆。首先，介绍了利用内外传感器进行导航的一般原理。其次，给出了仿真和实验结果并进行了评价。结果表明，所提出的方法能够有效地引导自动驾驶车辆沿预定轨迹行驶。

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

Proceedings. IEEE/RSJ International Workshop on Intelligent Robots and Systems '. (IROS '89) 'The Autonomous Mobile Robots and Its Applications

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