DocumentCode
1764454
Title
Model-Based Development of Leaping in a Hexapod Robot
Author
Ya-Cheng Chou ; Ke-Jung Huang ; Wei-Shun Yu ; Pei-Chun Lin
Author_Institution
Dept. of Mech. Eng., Nat. Taiwan Univ., Taipei, Taiwan
Volume
31
Issue
1
fYear
2015
fDate
Feb. 2015
Firstpage
40
Lastpage
54
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.
Keywords
legged locomotion; motion control; position control; robot dynamics; synchronisation; RHex-style hexapod robot; body forward velocity speed up; body pitch adjustment; leaping dynamic behavior analysis; legs phase synchronization; model-based development; range sensor; rolling contact; stride length regulation strategy; stride regulation; three-legged model; two-step leaping maneuver; Analytical models; Computational modeling; Hip; Legged locomotion; Springs; Torque; Behavior development; gait transition; hexapod; leaping; three-leg model;
fLanguage
English
Journal_Title
Robotics, IEEE Transactions on
Publisher
ieee
ISSN
1552-3098
Type
jour
DOI
10.1109/TRO.2014.2376141
Filename
6991541
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