Control oriented model-based simulation and experimental studies on a compliant legged quadruped robot

Quadruped robots offer better maneuverability over wheeled mobile robots. However, a quadruped robot contains many joint actuators which have to operate in a coordinated fashion to achieve the desired locomotion. Joint actuations cause various degrees of disturbance on the robot body and may even de...

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Bibliographic Details
Published in:Robotics and autonomous systems 2015-10, Vol.72, p.217-234
Main Authors: Gor, M.M., Pathak, P.M., Samantaray, A.K., Yang, J.-M., Kwak, S.W.
Format: Article
Language:English
Subjects:
Bond graph
Compliant leg
Dynamic model
Foot trajectory
Locomotion gait
Quadruped robot
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Summary:Quadruped robots offer better maneuverability over wheeled mobile robots. However, a quadruped robot contains many joint actuators which have to operate in a coordinated fashion to achieve the desired locomotion. Joint actuations cause various degrees of disturbance on the robot body and may even destabilize the system. Thus, prior dynamic analysis plays an important role for development of control laws for quadruped locomotion. Here, a three dimensional dynamic model of a quadruped has been developed using the bond graph technique which can be interfaced with various controller models. This model contains a detailed sub-model for telescopic compliant legs. Results from simulations, animations and experiments are discussed. Turning motion at various leg speeds is studied for dynamic stability of the robot. The effect of leg compliance on locomotion parameters is studied which helps in selecting a suitable compliance. Performance measure is carried out using energy efficiency as deciding criteria. Study on energy efficient quadruped structure, energy efficient locomotion gait and foot trajectory have been carried out for designing an efficient quadruped. •Paper presents three dimensional dynamic model of quadruped with compliant legs.•Model is verified with simulation, animation and experiment results.•Turning motion is demonstrated by providing differential leg tip velocity.•Influence of leg compliance on quadruped locomotion is studied.•Energy efficient structure, gait and foot trajectory have been carried out.
ISSN:0921-8890
1872-793X
DOI:10.1016/j.robot.2015.06.001