Search results for "pneumatic actuator"

showing 3 items of 3 documents

Decoupled nonlinear adaptive control of position and stiffness for pneumatic soft robots

2020

This article addresses the problem of simultaneous and robust closed-loop control of joint stiffness and position, for a class of antagonistically actuated pneumatic soft robots with rigid links and compliant joints. By introducing a first-order dynamic equation for the stiffness variable and using the additional control degree of freedom, embedded in the null space of the pneumatic actuator matrix, an innovative control approach is introduced comprising an adaptive compensator and a dynamic decoupler. The proposed solution builds upon existing adaptive control theory and provides a technique for closing the loop on joint stiffness in pneumatic variable stiffness actuators. Under a very mi…

0209 industrial biotechnologyAdaptive controlComputer science02 engineering and technologynull-spaceSoft robotadaptive controlComputer Science::Robotics020901 industrial engineering & automationArtificial IntelligenceControl theoryPosition (vector)0202 electrical engineering electronic engineering information engineeringmedicineElectrical and Electronic Engineeringvariable stiffness actuatorsPneumatic actuatorApplied MathematicsMechanical EngineeringStiffnessNonlinear adaptive controlphysical human–robot interactionantagonistic driveModeling and SimulationJoint stiffnesspneumatic actuatorRobot020201 artificial intelligence & image processingmedicine.symptomSoftware
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Comparison of Model-Based Simultaneous Position and Stiffness Control Techniques for Pneumatic Soft Robots

2020

Soft robots have been extensively studied for their ability to provide both good performance and safe human-robot interaction. In this paper, we present and compare the performance of two model-based control techniques with the common aim to independently and simultaneously control position and stiffness of a pneumatic soft robot’s joint. The dynamic system of a robot arm with flexible joints actuated by a pneumatic antagonistic pair of actuators, so-called McKibben artificial muscles, will be regarded, while its dynamic parameters will be considered imprecise. Simulation results are provided to verify the performance of the algorithms.

0209 industrial biotechnologyAdaptive controlPneumatic actuatorComputer scienceAdaptive controlModel based controlStiffnessAntagonistic drive02 engineering and technologySoft robotsVariable stiffness actuator020901 industrial engineering & automationSettore ING-INF/04 - AutomaticaPosition (vector)Control theoryPneumatic actuator0202 electrical engineering electronic engineering information engineeringmedicineRobot020201 artificial intelligence & image processingArtificial musclemedicine.symptomActuatorRobotic arm
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A theoretical approach to pneumatic muscle mechanics

2013

The mechanical response of pneumatic artificial muscles is analyzed assuming the inextensibility of the sheathing braids and taking into account the stress field inside the rubber bladder, which is regarded as a Mooney-Rivlin hyperelastic material. The end effects are simulated by heuristically profiling the meridian section. After estimating the constitutive parameters by traction tests on rubber specimens, the theoretical results are compared with experiments and a satisfactory accordance may be detected.

Materials sciencePneumatic actuatormedicine.medical_treatmentBio-robotics pneumatic air muscleMechanical engineeringMuscle mechanicsMechanicsTraction (orthopedics)Stress fieldPneumatic artificial musclesNatural rubbervisual_artHyperelastic materialBraidvisual_art.visual_art_mediummedicine2013 IEEE/ASME International Conference on Advanced Intelligent Mechatronics
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