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- Title
ROBOT SENSOR CALIBRATION VIA NEURAL NETWORK AND PARTICLE SWARM OPTIMIZATION ENHANCED WITH CROSSOVER AND MUTATION.
- Authors
Dong-Yuan Ge; Xi-Fan Yao; Qing-He Yao; Hong Jin
- Abstract
In order to determine the position and orientation of an object in the wrist frame for robot, transform relation of hand-eye system should be estimated, which is described as rotational matrix and translational vector. A new approach integrating neural network and particle swarm optimization algorithm with crossover and mutation operation for robot sense calibration is proposed. First the neural network with rotational weight matrix is structured, where the weights are the elements of rotational part of homogeneous transform of the hand-eye system. Then the particle swarm optimization algorithm is integrated into the solving program, where the inertia weight factor and mutation probability are tuned self-adaptively according to the motion trajectory of particles in longitudinal direction and lateral direction. When the termination criterion is satisfied, the rotational matrix is obtained from the neural network's stable weights. Then the translational vector is solved, so the position and orientation of camera frame with respect to wrist frame is achieved. The proposed approach provides a new scheme for robot sense calibration with self-adaptive technique, which guarantees the orthogonality of solved rotational components of the homogeneous transform.
- Subjects
ROBOTICS; ARTIFICIAL neural networks; SENSOR networks; PARTICLE swarm optimization; GENETIC mutation; EYE-hand coordination; VECTOR analysis
- Publication
Technical Gazette / Tehnički Vjesnik, 2014, Vol 21, Issue 5, p1025
- ISSN
1330-3651
- Publication type
Article