Neural network learning of the inverse kinematic relationships for a robot arm

Stuart Kieffer; Vassilios Morellas; Max Donath

Neural network learning of the inverse kinematic relationships for a robot arm

Stuart Kieffer, Vassilios Morellas, Max Donath

Research output: Contribution to journal › Conference article › peer-review

Abstract

A methodology is presented whereby a neural network is used to learn the inverse kinematic relationship for a robot arm. A two-link, two-degree-of-freedom planar robot arm is simulated, and an accompanying neural network which solves the inverse kinematic problem is presented. The method is based on Kohonen's self-organizing mapping algorithm using a Widrow-Hoff-type error correction rule as introduced by H. Ritter et al. (1988, 1990). The authors have specifically addressed a number of issues associated with the inverse kinematic solution, including the occurrence of singularities and multiple solutions. Simulation results for a planar two-degree-of-freedom arm provide evidence that this approach is successful. The approach is a significant improvement over other neural net approaches documented in the literature.

Original language	English (US)
Pages (from-to)	2418-2425
Number of pages	8
Journal	Proceedings - IEEE International Conference on Robotics and Automation
Volume	3
State	Published - 1991
Event	Proceedings of the 1991 IEEE International Conference on Robotics and Automation - Sacramento, CA, USA Duration: Apr 9 1991 → Apr 11 1991

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title = "Neural network learning of the inverse kinematic relationships for a robot arm",

abstract = "A methodology is presented whereby a neural network is used to learn the inverse kinematic relationship for a robot arm. A two-link, two-degree-of-freedom planar robot arm is simulated, and an accompanying neural network which solves the inverse kinematic problem is presented. The method is based on Kohonen's self-organizing mapping algorithm using a Widrow-Hoff-type error correction rule as introduced by H. Ritter et al. (1988, 1990). The authors have specifically addressed a number of issues associated with the inverse kinematic solution, including the occurrence of singularities and multiple solutions. Simulation results for a planar two-degree-of-freedom arm provide evidence that this approach is successful. The approach is a significant improvement over other neural net approaches documented in the literature.",

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year = "1991",

language = "English (US)",

volume = "3",

pages = "2418--2425",

journal = "Proceedings - IEEE International Conference on Robotics and Automation",

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publisher = "Institute of Electrical and Electronics Engineers Inc.",

note = "Proceedings of the 1991 IEEE International Conference on Robotics and Automation ; Conference date: 09-04-1991 Through 11-04-1991",

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T1 - Neural network learning of the inverse kinematic relationships for a robot arm

AU - Kieffer, Stuart

AU - Morellas, Vassilios

AU - Donath, Max

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N2 - A methodology is presented whereby a neural network is used to learn the inverse kinematic relationship for a robot arm. A two-link, two-degree-of-freedom planar robot arm is simulated, and an accompanying neural network which solves the inverse kinematic problem is presented. The method is based on Kohonen's self-organizing mapping algorithm using a Widrow-Hoff-type error correction rule as introduced by H. Ritter et al. (1988, 1990). The authors have specifically addressed a number of issues associated with the inverse kinematic solution, including the occurrence of singularities and multiple solutions. Simulation results for a planar two-degree-of-freedom arm provide evidence that this approach is successful. The approach is a significant improvement over other neural net approaches documented in the literature.

AB - A methodology is presented whereby a neural network is used to learn the inverse kinematic relationship for a robot arm. A two-link, two-degree-of-freedom planar robot arm is simulated, and an accompanying neural network which solves the inverse kinematic problem is presented. The method is based on Kohonen's self-organizing mapping algorithm using a Widrow-Hoff-type error correction rule as introduced by H. Ritter et al. (1988, 1990). The authors have specifically addressed a number of issues associated with the inverse kinematic solution, including the occurrence of singularities and multiple solutions. Simulation results for a planar two-degree-of-freedom arm provide evidence that this approach is successful. The approach is a significant improvement over other neural net approaches documented in the literature.

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M3 - Conference article

AN - SCOPUS:0025867957

SN - 1050-4729

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JF - Proceedings - IEEE International Conference on Robotics and Automation

T2 - Proceedings of the 1991 IEEE International Conference on Robotics and Automation

Y2 - 9 April 1991 through 11 April 1991

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Neural network learning of the inverse kinematic relationships for a robot arm

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