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  4. Bio-inspired step-climbing in a hexapod robot
 
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Bio-inspired step-climbing in a hexapod robot

Journal
Bioinspiration & Biomimetics
Journal Volume
7
Journal Issue
3
Date Issued
2012
Author(s)
Chou, Ya-Cheng
Yu, Wei-Shun
Huang, Ke-Jung
Lin, Pei-Chun
Chou, Ya-Cheng
Yu, Wei-Shun
Huang, Ke-Jung
Lin, Pei-Chun
PEI-CHUN LIN  
DOI
10.1088/1748-3182/7/3/036008
URI
http://scholars.lib.ntu.edu.tw/handle/123456789/370786
Abstract
Inspired by the observation that the cockroach changes from a tripod gait to a different gait for climbing high steps, we report on the design and implementation of a novel, fully autonomous step-climbing maneuver, which enables a RHex-style hexapod robot to reliably climb a step up to 230% higher than the length of its leg. Similar to the climbing strategy most used by cockroaches, the proposed maneuver is composed of two stages. The first stage is the 'rearing stage,' inclining the body so the front side of the body is raised and it is easier for the front legs to catch the top of the step, followed by the 'rising stage,' maneuvering the body's center of mass to the top of the step. Two infrared range sensors are installed on the front of the robot to detect the presence of the step and its orientation relative to the robot's heading, so that the robot can perform automatic gait transition, from walking to step-climbing, as well as correct its initial tilt approaching posture. An inclinometer is utilized to measure body inclination and to compute step height, thus enabling the robot to adjust its gait automatically, in real time, and to climb steps of different heights and depths successfully. The algorithm is applicable for the robot to climb various rectangular obstacles, including a narrow bar, a bar and a step (i.e. a bar of infinite width). The performance of the algorithm is evaluated experimentally, and the comparison of climbing strategies and climbing behaviors in biological and robotic systems is discussed.
Type
journal article

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