DocumentCode
29963
Title
Visual Predictive Control of Spiral Motion
Author
Mcfadyen, A. ; Corke, P. ; Mejias, L.
Author_Institution
Sci. & Eng. Fac., Queensland Univ. of Technol., Brisbane, QLD, Australia
Volume
30
Issue
6
fYear
2014
fDate
Dec. 2014
Firstpage
1441
Lastpage
1454
Abstract
This paper deals with constrained image-based visual servoing of circular and conical spiral motion about an unknown object approximating a single image point feature. Effective visual control of such trajectories has many applications for small unmanned aerial vehicles, including surveillance and inspection, forced landing (homing), and collision avoidance. A spherical camera model is used to derive a novel visual-predictive controller (VPC) using stability-based design methods for general nonlinear model-predictive control. In particular, a quasi-infinite horizon visual-predictive control scheme is derived. A terminal region, which is used as a constraint in the controller structure, can be used to guide appropriate reference image features for spiral tracking with respect to nominal stability and feasibility. Robustness properties are also discussed with respect to parameter uncertainty and additive noise. A comparison with competing visual-predictive control schemes is made, and some experimental results using a small quad rotor platform are given.
Keywords
control system synthesis; infinite horizon; motion control; nonlinear control systems; predictive control; stability; visual servoing; additive noise; circular spiral motion; conical spiral motion; constrained image-based visual servoing; general nonlinear model-predictive control; nominal stability; parameter uncertainty; quad rotor platform; quasiinfinite horizon visual-predictive control scheme; reference image features; spiral motion control; spiral tracking; stability-based design methods; Predictive control; Robustness; Spirals; Unmanned aerial vehicles; Visual servoing; Nonlinear model-predictive control (NMPC); Nonlinear model-predictive control (NMPC),spirals; spirals; stability; visual servoing;
fLanguage
English
Journal_Title
Robotics, IEEE Transactions on
Publisher
ieee
ISSN
1552-3098
Type
jour
DOI
10.1109/TRO.2014.2361425
Filename
6949086
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