Modular Design of Image Based Visual Servo Control for Dynamic Mechanical Systems

Authors

Abstract

This paper presents a modular framework for design of image based visual servo control for fully actuated dynamic mechanical systems. The approach taken uses the formalism of port Hamiltonian systems to track energy exchanged between the mechanical system and virtual potentials or Hamiltonians associated with each image feature. Asymptotic stability of the system is guaranteed by injecting damping to the otherwise conservative system. A simple approach based on full state measurement is presented and then extended to deal with unmeasured relative depth of image features.

Citation

ISBN: 9783319293622
Publisher: Springer International Publishing
DOI: 10.1007/978-3-319-29363-9_8

BibTeX

@inbook{Mahony_2016,
  title={{Modular Design of Image Based Visual Servo Control for Dynamic Mechanical Systems}},
  ISBN={9783319293639},
  ISSN={1610-742X},
  DOI={10.1007/978-3-319-29363-9_8},
  booktitle={{Robotics Research}},
  publisher={Springer International Publishing},
  author={Mahony, Robert},
  year={2016},
  pages={129--146}
}

Download the bib file

References

Espiau, B., Chaumette, F. & Rives, P. A new approach to visual servoing in robotics. IEEE Transactions on Robotics and Automation vol. 8 313–326 (1992) – 10.1109/70.143350
C Samson. C. Samson, M. Le Borgne, B. Espiau, Robot Control: The Task Function Approach (The Oxford Engineering Science Series (Oxford University Press, Oxford, U.K., 1991) (1991)
R. Pissard-Gibollet, P. Rives, in Proceedings of the IEEE International Conference on Robotics and Automation, ICRA’95 (Nagasaki, Japan, 1995), pp. 166–171
Hutchinson, S., Hager, G. D. & Corke, P. I. A tutorial on visual servo control. IEEE Transactions on Robotics and Automation vol. 12 651–670 (1996) – 10.1109/70.538972
Kelly, R. Robust asymptotically stable visual servoing of planar robots. IEEE Transactions on Robotics and Automation vol. 12 759–766 (1996) – 10.1109/70.538980
Kelly, R., Carelli, R., Nasisi, O., Kuchen, B. & Reyes, F. Stable visual servoing of camera-in-hand robotic systems. IEEE/ASME Transactions on Mechatronics vol. 5 39–48 (2000) – 10.1109/3516.828588
Zergeroglu, E., Dawson, D. M., de Querioz, M. S. & Behal, A. Vision-based nonlinear tracking controllers with uncertain robot-camera parameters. IEEE/ASME Transactions on Mechatronics vol. 6 322–337 (2001) – 10.1109/3516.951370
Bishop, B. E. & Spong, M. W. Adaptive calibration and control of 2D monocular visual servo systems. Control Engineering Practice vol. 7 423–430 (1999) – 10.1016/s0967-0661(98)00160-9
Hamel, T. & Mahony, R. Visual servoing of an under-actuated dynamic rigid-body system: an image-based approach. IEEE Transactions on Robotics and Automation vol. 18 187–198 (2002) – 10.1109/tra.2002.999647
A Maruyama. A. Maruyama, M. Fujita, Adv. Robot. 12(14), 67 (1998) (1998)
Maruyama, A., Kawai, H. & Fujita, M. Stability and tracking performance of dynamic visual feedback control for nonlinear mechanical systems. Proceedings of the 40th IEEE Conference on Decision and Control (Cat. No.01CH37228) vol. 5 4415–4420 – 10.1109/.2001.980897
Fujita, M., Kawai, H. & Spong, M. W. Passivity-Based Dynamic Visual Feedback Control for Three-Dimensional Target Tracking: Stability and $L_{2}$-Gain Performance Analysis. IEEE Transactions on Control Systems Technology vol. 15 40–52 (2007) – 10.1109/tcst.2006.883236
Kawai, H., Murao, T. & Fujita, M. Image-based dynamic visual feedback control via passivity approach. 2006 IEEE Conference on Computer Aided Control System Design, 2006 IEEE International Conference on Control Applications, 2006 IEEE International Symposium on Intelligent Control 740–745 (2006) doi:10.1109/cacsd-cca-isic.2006.4776738 – 10.1109/cacsd-cca-isic.2006.4776738
Cowan, N. J., Weingarten, J. D. & Koditschek, D. E. Visual servoing via navigation functions. IEEE Transactions on Robotics and Automation vol. 18 521–533 (2002) – 10.1109/tra.2002.802202
R. Kelly, J. Moreno, R. Campa, in 43rd IEEE Conference on Decision and Control (Atlantis, Paradise Island, Bahama, 2004), pp. 4028–4033
T. Murao, H. Kawai, M. Fujita, in IEEE International Conference on Control Applications (Yokohama, Japan, 2010)
N. Papanikolopoulos, P.K. Khosla, T. Kanade, in Proceedings of the American Control Con- ference (1991), pp. 962–967
Malis, E., Chaumette, F. & Boudet, S. 2 1/2 D visual servoing. IEEE Transactions on Robotics and Automation vol. 15 238–250 (1999) – 10.1109/70.760345
JA Piepmeier. J.A. Piepmeier, A dynamic quasi-newton method for model independent visual servoing (Phd, Georgia Institute of Technology, Atlanta, USA, 1999) (1999)
S. Stramigioli, R. Mahony, P. Corke, in Proceedings of the IEEE International Conference on Robotics and Automation (ICRA) (2010), pp. 5302–5308
Khatib, O. The Operational Space Framework. JSME international journal. Ser. C, Dynamics, control, robotics, design and manufacturing vol. 36 277–287 (1993) – 10.1299/jsmec1993.36.277
F. Chaumette, in Conflux of vision and control LNCIS, vol. 237 (1998), pp. 66–78