Measurement of flexed posture for flexible mono-tread mobile track: Fundamental test and validation using new flexible displacement sensor

Proceedings of SICE Annual Conference 2010 Pub Date : 2010-10-14 DOI:10.5687/ISCIE.24.200

T. Kinugasa, T. Akagi, K. Ishii, T. Haji, K. Yoshida, Y. Otani, H. Amano, R. Hayashi, K. Tokuda, K. Osuka

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引用次数: 2

Abstract

We have proposed Flexible Mono-tread mobile Track (FMT) as a mobile mechanism for hazardous environment such as disaster area. FMT has only one track which can flex in three dimension. Generally speaking, one has to teleoperate robots under invisible condition. In order to operate the robots skillfully, it is necessary to detect not only condition around the robots and its position but also posture of the robots at any time. Flexed posture of FMT decides turning radius and direction, it is very important to know its posture, accordingly. FMT has a vertebral structure composed of vertebrae as rigid body and intervertebral disks made by flexible devices such as rubber cylinder and spring. Since the intervertebral disks flex in three dimension, it is not easy for traditional sensors such as potentiometers, rotary encoders and range finders to measure its deformation. The purpose of the paper, therefore, is to measure flexed posture of FMT using a new flexible displacement sensor. As a result, the posture of a joint of FMT is measured.

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柔性单胎面移动轨道弯曲姿态的测量:使用新型柔性位移传感器的基础测试与验证

提出了柔性单踏面移动履带(FMT)作为一种适用于灾区等危险环境的移动机械。FMT只有一条轨道可以在三维空间中弯曲。一般来说，人们必须在看不见的情况下远程操作机器人。为了熟练地操作机器人，不仅需要随时检测机器人周围的环境和位置，还需要随时检测机器人的姿态。FMT的屈曲姿态决定了其转弯半径和方向，因此对其屈曲姿态的了解非常重要。FMT是由作为刚体的椎骨和由橡胶筒、弹簧等柔性装置制成的椎间盘组成的椎体结构。由于椎间盘是三维弯曲的，传统的传感器如电位器、旋转编码器和测距仪不容易测量其变形。因此，本文的目的是使用一种新的柔性位移传感器来测量FMT的弯曲姿态。结果，测量了FMT关节的姿态。

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Proceedings of SICE Annual Conference 2010

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