Uncalibrated Dynamic Visual Servoing
Author(s)
Piepmeier, Jenelle Armstrong
McMurray, Gary V.
Lipkin, Harvey
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Abstract
A dynamic quasi-Newton method for uncalibrated,
vision-guided robotic tracking control with fixed imaging is developed
and demonstrated. This method does not require calibrated
kinematic and camera models. Robotic control is achieved at each
step through minimizing a nonlinear objective function by taking
quasi-Newton steps and estimating the composite Jacobian at
each step. The Jacobian is estimated using a dynamic recursive
least squares algorithm. Experimental results demonstrate the
validity of this approach.
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Date
2004-02
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Text
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Paper