Gap Traversing Motion via a Hexapod Tracked Mobile Robot Based on Gap Width Detection

The authors developed a hexapod tracked mobile robot: a tracked mobile robot which is equipped with six legs attached to the robot’s body. In a transportation task, this robot can traverse a wide gap by supporting track driving with four front and rear legs while holding the target object with its t...

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Published in:Journal of robotics and mechatronics 2021-06, Vol.33 (3), p.665-675
Main Authors: Sasaki, Taiga, Fujita, Toyomi
Format: Article
Language:English
Subjects:
Distance measurement
Infrared detectors
Laser range finders
Robot dynamics
Robots
Servomotors
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Fujita, Toyomi
description The authors developed a hexapod tracked mobile robot: a tracked mobile robot which is equipped with six legs attached to the robot’s body. In a transportation task, this robot can traverse a wide gap by supporting track driving with four front and rear legs while holding the target object with its two middle legs. To realize autonomous actions with this robot, we developed a two-dimensional distance measurement system using an infrared sensor. This system is very simple, with the sensor attached to a servomotor, such that it does not require high computing power for measurement. In addition, the system can be equipped at a lower cost than laser range finders and depth cameras. This paper describes the selection of the gap traversing mode according to gap width detected by the system. In this study, we conducted a gap width detection experiment and an autonomous gap traversing experiment using the hexapod tracked mobile robot with the proposed system. The obtained results confirm the effectiveness of the proposed system and autonomous traversing, which corresponds with the gap width detection.
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source J-STAGE (Japan Science & Technology Information Aggregator, Electronic) - Open Access English articles
subjects Distance measurement
Infrared detectors
Laser range finders
Robot dynamics
Robots
Servomotors
title Gap Traversing Motion via a Hexapod Tracked Mobile Robot Based on Gap Width Detection
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