Cerebellar-Inspired Adaptive Control of a Robot Eye Actuated by Pneumatic Artificial Muscles
In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot eye actuated by pneumatic artificial muscles. The investigated control problem is stabilization of the visual image in response to disturbances. This is analogous to the vestibuloocular reflex (VOR)...
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| Published in | IEEE transactions on systems, man and cybernetics. Part B, Cybernetics Vol. 39; no. 6; pp. 1420 - 1433 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
IEEE
01.12.2009
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1083-4419 1941-0492 1941-0492 |
| DOI | 10.1109/TSMCB.2009.2018138 |
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| Abstract | In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot eye actuated by pneumatic artificial muscles. The investigated control problem is stabilization of the visual image in response to disturbances. This is analogous to the vestibuloocular reflex (VOR) in humans. The cerebellar model is structurally based on the adaptive filter, and the learning rule is computationally analogous to least-mean squares, where parameter adaptation at the parallel fiber/Purkinje cell synapse is driven by the correlation of the sensory error signal (carried by the climbing fiber) and the motor command signal. Convergence of the algorithm is first analyzed in simulation on a model of the robot and then tested online in both one and two degrees of freedom. The results show that this model of neural function successfully works on a real-world problem, providing empirical evidence for validating: 1) the generic cerebellar learning algorithm; 2) the function of the cerebellum in the VOR; and 3) the signal transmission between functional neural components of the VOR. |
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| AbstractList | In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot eye actuated by pneumatic artificial muscles. The investigated control problem is stabilization of the visual image in response to disturbances. This is analogous to the vestibuloocular reflex (VOR) in humans. The cerebellar model is structurally based on the adaptive filter, and the learning rule is computationally analogous to least-mean squares, where parameter adaptation at the parallel fiber/Purkinje cell synapse is driven by the correlation of the sensory error signal (carried by the climbing fiber) and the motor command signal. Convergence of the algorithm is first analyzed in simulation on a model of the robot and then tested online in both one and two degrees of freedom. The results show that this model of neural function successfully works on a real-world problem, providing empirical evidence for validating: 1) the generic cerebellar learning algorithm; 2) the function of the cerebellum in the VOR; and 3) the signal transmission between functional neural components of the VOR. In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot eye actuated by pneumatic artificial muscles. The investigated control problem is stabilization of the visual image in response to disturbances. This is analogous to the vestibuloocular reflex (VOR) in humans. The cerebellar model is structurally based on the adaptive filter, and the learning rule is computationally analogous to least-mean squares, where parameter adaptation at the parallel fiber/Purkinje cell synapse is driven by the correlation of the sensory error signal (carried by the climbing fiber) and the motor command signal. Convergence of the algorithm is first analyzed in simulation on a model of the robot and then tested online in both one and two degrees of freedom. The results show that this model of neural function successfully works on a real-world problem, providing empirical evidence for validating: 1) the generic cerebellar learning algorithm; 2) the function of the cerebellum in the VOR; and 3) the signal transmission between functional neural components of the VOR.In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot eye actuated by pneumatic artificial muscles. The investigated control problem is stabilization of the visual image in response to disturbances. This is analogous to the vestibuloocular reflex (VOR) in humans. The cerebellar model is structurally based on the adaptive filter, and the learning rule is computationally analogous to least-mean squares, where parameter adaptation at the parallel fiber/Purkinje cell synapse is driven by the correlation of the sensory error signal (carried by the climbing fiber) and the motor command signal. Convergence of the algorithm is first analyzed in simulation on a model of the robot and then tested online in both one and two degrees of freedom. The results show that this model of neural function successfully works on a real-world problem, providing empirical evidence for validating: 1) the generic cerebellar learning algorithm; 2) the function of the cerebellum in the VOR; and 3) the signal transmission between functional neural components of the VOR. |
| Author | Lenz, A. Melhuish, C. Pipe, A.G. Anderson, S.R. Dean, P. Porrill, J. |
| Author_xml | – sequence: 1 givenname: A. surname: Lenz fullname: Lenz, A. organization: Bristol Robot. Lab., Bristol, UK – sequence: 2 givenname: S.R. surname: Anderson fullname: Anderson, S.R. organization: Dept. of Psychol., Univ. of Sheffield, Sheffield, UK – sequence: 3 givenname: A.G. surname: Pipe fullname: Pipe, A.G. organization: Bristol Robot. Lab., Bristol, UK – sequence: 4 givenname: C. surname: Melhuish fullname: Melhuish, C. organization: Bristol Robot. Lab., Bristol, UK – sequence: 5 givenname: P. surname: Dean fullname: Dean, P. organization: Dept. of Psychol., Univ. of Sheffield, Sheffield, UK – sequence: 6 givenname: J. surname: Porrill fullname: Porrill, J. organization: Dept. of Psychol., Univ. of Sheffield, Sheffield, UK |
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| SubjectTerms | Adaptive control Adaptive filters Algorithms Artificial muscles Biomimetic model Biomimetics - instrumentation Biomimetics - methods Brain modeling cerebellum Cerebellum - physiology Concurrent computing Convergence Cybernetics - methods Equipment Design Humans Mathematical analysis Mathematical models Micro-Electrical-Mechanical Systems Models, Neurological Muscles Muscles - physiology Neural Networks (Computer) Neuronal Plasticity neurorobotics Optical fiber sensors Optical fiber testing pneumatic artificial muscle (PAM) Reflex, Vestibulo-Ocular - physiology Robot control Robotics - instrumentation Robotics - methods Robots vestibuloocular reflex (VOR) |
| Title | Cerebellar-Inspired Adaptive Control of a Robot Eye Actuated by Pneumatic Artificial Muscles |
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