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Abstract

In this paper we consider the mobile robot parking problem, i.e., the stabilization of a wheeled vehicle to a given position and orientation, using only visual feedback from low-cost cameras. We take into account the practically most relevant problem of keeping the tracked features in sight of the camera while maneuvering to park the vehicle. This constraint, often neglected in the literature, combines with the non-holonomic nature of the vehicle kinematics in a challenging controller design problem. We provide an effective solution to such a problem by using a combination of previous results on non-smooth control synthesis and recently developed hybrid control techniques. Simulations and experimental results on a laboratory vehicle are reported, showing the practicality of the proposed approach.

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References

Branicky, M. 1998. Multiple Lyapunov functions and other analysis tools for switched and hybrid systems . IEEE Transactions on Automatic Control 43(4): 475–482 .

Brockett, R. 1983. Asymptotic stability and feedback stabilization. Differential Geometric Control Theory, R.W. Brockett, R.S. Millman, and H.J. Sussmann editors, Birkhauser, Boston , pp. 181–191.

Campion, G., d’Andrèa Novel, B., and Bastin, G. 1991. Controllability and state feedback stabilization of nonholonomic wheeled mechanical systems. Advanced Robotic Control, Springer-Verlag, Berlin , pp. 106–124.

Casalino, G., Aicardi, M., Bicchi, A., and Balestrino, A. 1994. Closed-loop steering and path following for unicycle-like vehicles: a simple Lyapunov function based approach . Proceedings of the IFAC International Symposium on Robot Control, Capri. Elsevier Science, Oxford.

Casalino, G., Aicardi, M., Bicchi, A., and Balestrino, A. 1995. Closed loop steering and path following for unicycle-like vehicles: a simple Lyapunov function based approach . IEEE Robotics and Automation Magazine 2(1): 27–35 .

Conticelli, F., Prattichizzo, D., Guidi, F., and Bicchi, A. 2000. Vision-based dynamic estimation and set-point stabilization of nonholonomic vehicles . Proceedings of the IEEE International Conference on Robotics and Automation, San Francisco, CA, pp. 2771–2776 .

d’Andréa Novel, B., Campion, G., and Bastin, G. 1995. Control of nonholonomic wheeled mobile robots by state feedback linearization . International Journal of Robotics Research 14(6): 543–559 .

de Wit, C. C., and Sordalen, O. 1992. Exponential stabilization of mobile robots with nonholonomic constraints . IEEE Transactions on Robotics and Automation 37(11): 1791– 1797 .

Hager, G. D., and Toyama, K. 1998. X vision: a portable substrate for real-time vision applications . Computer Vision and Image Understanding 69(1): 23–37 .

10.

Hartley, R., and Zisserman, A. 2000. Multiple view geometry in computer vision, Cambridge University Press, Cambridge .

11.

Hashimoto, K., and Noritsugu, T. 1997. Visual servoing of nonholonomic cart . Proceedings of the International Conference on Robotics and Automation, Albuquerque, NM, pp. 1719–1724 .

12.

Henzinger, T. A., and Sastry, S., editors. 1998. Hybrid Systems: Computation and Control, Lecture Notes in Computer Science, Vol. 1386, Springer-Verlag, Berlin .

13.

Hespanha, J. P. 2000. Single camera visual servoing . Proceedings of the IEEE International Conference on Decision and Control, Sydney, Australia, pp. 2533–2538 .

14.

Mezouar, Y., and Chaumette, F. 1998. Path planning in image space for robust visual servoing. IRISA-INRIA Rennes, Technical Report.

15.

Morin, P., and Samson, C. 1996. Application of backstepping techniques to the time-varying exponential stabilization of chained form systems. INRIA Research Report, Technical Report 2792, sophia-Antipolis .

16.

Ollis, M., Herman, H., and Singh, S. 1999. Analysis and design of panoramic stereo vision using equi-angular pixel cameras. Technical Report CMU-RI-TR-99-04, Robotics Institute, Carnegie Mellon University, Pittsburgh, PA .

17.

Schumacher, J. M., and van der Schaft, A. J. 1999. Introduction to Hybrid Dynamical Systems, Springer-Verlag, London .

18.

Tilbury, D., and Chelouah, A. 1993. Steering a three-input nonholonomic system using multi-rate controls . European Control Conference, Groningen, the Netherlands, pp. 1428–1431 .

19.

Tsakiris, D., Rives, P., and Samson, C. 1997. Applying visual servoing techniques to control nonholonomic mobile robots . International Conference on Intelligent Robots and Systems, Workshop on New Trends in Image-based Robot Servoing, Grenoble, France.

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A Hybrid-Control Approach to the Parking Problem of a Wheeled Vehicle Using Limited View-Angle Visual Feedback

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