水下机器人传感器系统

Proceedings of the 2000 International Symposium on Underwater Technology (Cat. No.00EX418) Pub Date : 2000-05-23 DOI:10.1109/UT.2000.852567

H. Tonshoff, E. Bedhief, U. Kruse

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引用次数: 3

摘要

机器人在工业水下环境中的应用需要传感器系统来识别所观察到的场景，并确定机器人的工具中心点(TCP)的位置。一种用于移动水下航行器制导的激光雷达基于一种不同的吸收距离测量方法，该方法通过水在两种不同激光波长下的不同衰减行为来计算距离。因此，必须考虑水中的散射和衰减过程。建立了超声测量系统作为三边测量系统。它由压电致动器组成，并使用飞行时间法结合相移测量。因此，有可能以非常高的精度识别水下机器人执行器的准确位置和方向。

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Sensor systems for robotic applications under water

For applications of robots in industrial underwater environments sensor systems are required to identify the observed scene and to determine the position of the tool-center-point (TCP) of robots. A laser radar for guidance of a mobile underwater vehicle is based on a different absorption distance measurement method, which calculates the distance by the different attenuation behaviour of water at two different laserlight wavelengths. Therefore, scattering and attenuation processes in water have to be incorporated. An ultrasonic measurement system is built as a trilateration system. It consists of piezoactuators and uses a time-of-flight method combined with a phase-shift measurement. Thus it is possible to identify the exact position and orientation of the actuator of an underwater robot with a very high accuracy.

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Proceedings of the 2000 International Symposium on Underwater Technology (Cat. No.00EX418)

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