HOMOGRAPHY-BASED VISUAL PREDICTIVE CONTROL OF TRACKED MOBILE ROBOT WITH FIELD-OF-VIEW CONSTRAINTS

Bingxi Jia and Shan Liu

References

1. [1] F. Bonin-Font, A. Ortiz, and G. Oliver, Visual navigation for mobile robots: A survey, Journal of Intelligent and Robotic Systems, 53(3), 2008, 263–296.
2. [2] T. Fukao, H. Nakagawa, and N. Adachi, Adaptive trackingcontrol of a nonholonomic mobile robot, IEEE Transactionson Robotics and Automation, 16(5), 2000, 609–615.
3. [3] K. Kanjanawanishkul and A. Zell, Path following for anomnidirectional mobile robot based on model predictive con-trol, Proc. 2009 IEEE International Conference on Roboticsand Automation, Kobe, Japan, 2009, 3341–3346.
4. [4] H. Durrant-Whyte and T. Bailey, Simultaneous localization and mapping: Part I, IEEE Robotics and Automation Magazine, 13(2), 2006, 99–110.
5. [5] G.L. Mariottini, G. Oriolo, and D. Prattichizzo, Image-based visual servoing for nonholonomic mobile robots using epipolar geometry, IEEE Transactions on Robotics, 23(1), 2007, 87–100.
6. [6] P. Rives, Visual servoing based on epipolar geometry, Proc. 2000 IEEE/RSJ International Conference on Intelligent Robots and Systems, Takamatsu, Japan, 2000, 602–607.
7. [7] S. Benhimane and E. Malis, Homography-based 2D visualtracking and servoing, The International Journal of Robotics Research, 26(7), 2007, 661–676.
8. [8] J. Chen, W.E. Dixon, D.M. Dawson, and M. McIntyre,Homography-based visual servo tracking control of a wheeledmobile robot, IEEE Transactions on Robotics, 22(2), 2006,406–415.
9. [9] G. L´opez-Nicol´as, N.R. Gans, S. Bhattacharya, C. Sag¨u´es, J.J. Guerrero, and S. Hutchinson, Homography-based control scheme for mobile robots with nonholonomic and field-of-view constraints, IEEE Transactions on Systems, Man, and Cybernetics, Part B: Cybernetics, 40(4), 2010, 1115–1127.
10. [10] Y. Mezouar and F. Chaumette, Optimal camera trajectory with image-based control, The International Journal of Robotics Research, 22(10), 2003, 781–803.
11. [11] P.I. Corke and S.A. Hutchinson, A new partitioned approach to image-based visual servo control, IEEE Transactions on Robotics and Automation, 17(4), 2001, 507–515.
12. [12] E. Malis, F. Chaumette, and S. Boudet, 21/2D visual servoing, IEEE Transactions on Robotics and Automation, 15(2), 1999, 238–250.
13. [13] M. Kazemi, K. Gupta, and M. Mehrandezh. Global pathplanning for robust visual servoing in complex environments, Proc. 2009 IEEE International Conference on Robotics and Automation, Kobe, Japan, 2009, 326–332.
14. [14] G. Chesi and A. Vicino, Visual servoing for large camera displacements, IEEE Transactions on Robotics, 20(4), 2004, 724–735.
15. [15] S. Bhattacharya, R. Murrieta-Cid, and S. Hutchinson, Optimal paths for landmark-based navigation by differential-drive vehicles with field-of-view constraints, IEEE Transactions on Robotics, 23(1), 2007, 47–59.
16. [16] P. Salaris, D. Fontanelli, L. Pallottino, and A. Bicchi, Shortest paths for a robot with nonholonomic and field-of-view constraints, IEEE Transactions on Robotics, 26(2), 2010, 269–281.
17. [17] S. Durola, P. Dan`es, D.F. Coutinho, and M. Courdesses. Rational systems and matrix inequalities to the multicriteria analysis of visual servos, Proc. 2009 IEEE International Conference on Robotics and Automation, Kobe, Japan, 2009, 1504–1509.
18. [18] G. Allibert, E. Courtial, and F. Chaumette, Predictive control for constrained image-based visual servoing, IEEE Transactions on Robotics, 26(5), 2010, 933–939.
19. [19] S. Bhattacharya, R. Murrieta-Cid, and S. Hutchinson, Path planning for a differential drive robot: Minimal length paths-a geometric approach, Proc. 2004 IEEE/RSJ International Conf. on Intelligent Robots and Systems, Sandal, Japan, 2004, 2793–2798.
20. [20] J.L. Mart´ınez, A. Mandow, J. Morales, S. Pedraza, andA. Garc´ıa-Cerezo, Approximating kinematics for tracked mo-bile robots, The International Journal of Robotics Research, 24(10), 2005, 867–878.
21. [21] R. Hartley and A. Zisserman, Multiple view geometry incomputer vision, Cambridge University Press, 2003.
22. [22] F. K¨unhe, J. Gomes, and W. Fetter. Mobile robot trajectory tracking using model predictive control, Proc. 2005 IEEE Latin-American robotics symposium, Sao Luis, Brazil, 2005.
23. [23] R. Findeisen and F. Allg¨ower, An introduction to nonlinear model predictive control. Proc. 21st Benelux Meeting on Systems and Control, Veldhoven, Netherlands, 2002, 119–141.

Important Links:

• Abstract
• DOI: 10.2316/Journal.206.2015.5.206-4382
• From Journal (206) International Journal of Robotics and Automation - 2015

Go Back