1. Model-Based Development of Leaping in a Hexapod Robot.
- Author
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Chou, Ya-Cheng, Huang, Ke-Jung, Yu, Wei-Shun, and Lin, Pei-Chun
- Subjects
MOBILE robots ,ROBOT dynamics ,DYNAMICS ,LOCOMOTION ,JUMPING ,ARTIFICIAL intelligence research - Abstract
We report on the model-based development of leaping behavior in a RHex-style hexapod robot. A three-legged model is proposed to analyze the dynamic behavior of leaping, and this serves as a guide for implementing the behavior on the empirical robot. The model has a rigid body and three massless and compliant legs, which have rolling contact with the ground for better modeling the leg behavior of the empirical robot. By investigating the model's behavior, a two-step leaping maneuver is developed. The first step is utilized for adjusting the body pitch, synchronizing the phases of all six legs, and speeding up the body's forward velocity. This provides adequate initial conditions for the second step leaping, which creates a long-distance flight and adequate landing for follow-up running. In addition, we also report on the strategy of stride length regulation. With implementation of the range sensor, the robot can regulate its stride in order to reach a specific and desired position for leaping. The gait transition and initiation of leaping is fully autonomous. The behavioral development is implemented in the RHex-style robot and is evaluated experimentally. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
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