Quadruped Robot Omni-Directional Walking on a Slope Based on Static Balance

Wen Yu Zhang; Lei Zhang

doi:10.4028/www.scientific.net/AMR.591-593.1436

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A Design of Path Planning System for UP6 Industrial Robot Based on Machine Vision
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FBG Intrusion Recognition Algorithm Based on SVM
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Analysis for SCR Control System Based on ANN
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Pseudo Multi-Hop Distributed Consensus with Adaptive Quantization
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Quadruped Robot Omni-Directional Walking on a Slope Based on Static Balance
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The Design and Simulation of Voltage and Reactive Power Fuzzy Controller in Substation
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Stochastic Admissibility for a Class of Nonlinear Singular Markovian Jump Systems with Time-Delay
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Hybrid Neural Network Models of Six-Axis Force Sensor
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Mechanical Analysis of the Jumping Motion of a Spherical Robot
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 591-593Quadruped Robot Omni-Directional Walking on a...

Quadruped Robot Omni-Directional Walking on a Slope Based on Static Balance

Abstract:

Quadruped robot is widely developed on the basis of bionic technology and has good structural stability and flexibility in uneven terrain. It is required of the quadruped robot to keep static balance while transportation task is executed. In this paper, first, the unstable problems during static walking on a slope have been analyzed in detail, and the stability criterion which considering affections of slope walking environment has been proposed. Based on static balance, the falling over problem and tumbling around the line connecting two support feet during gait transition problem have been solved. The gaits are planned to ensure omni-directional stable walking on a slope. Through walking experiments by computer simulation, the validity of the proposed method has been verified.

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Periodical:

Advanced Materials Research (Volumes 591-593)

Pages:

1436-1440

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.591-593.1436

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Online since:

November 2012

Authors:

Wen Yu Zhang, Lei Zhang

Keywords:

Gait Planning, Quadruped Robot, Static Balance, Walking on Slope

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