Authors: Gheorghe Galben, Daniel N. Aloi

Abstract:

Recently, the Spherical Motion Models (SMM-s) have been introduced [1]. These new models have been developed for 3D local landmark-base Autonomous Navigation (AN). This paper is revealing new arguments and experimental results to support the SMM-s characteristics. The accuracy and the robustness in performing a specific task are the main concerns of the new investigations. To analyze their performances of the SMM-s, the most powerful tools of estimation theory, the extended Kalman filter (EKF) and unscented Kalman filter (UKF), which give the best estimations in noisy environments, have been employed. The Monte Carlo validation implementations used to test the stability and robustness of the models have been employed as well.

Keywords: Autonomous navigation, extended kalman filter, unscented kalman filter, localization algorithms.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1085048

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1269

References:

[1] G. Galben,"New Three-Dimensional Velocity Motion Model and Composite Odometry-Inertial Motion Model for Local Autonomous Navigation" IEEE Trans on Vehicular Technology, vol 60, NO.3, pp. 771-782, March 2011.
[2] G. Galben,"Robust and High Accuracy Autonomous Navigation", PhD dissertation, Dept. Elect. And Comp. Eng, Oakland Univ., Rochester, MI, 2011, pp 38-77 and 87-128.
[3] H. Huosheng, G Dongbing , "Landmark-based Navigation of Industrial Mobile Robots", International Journal of Industry Robot, Vol. 27 No 6, 2000 pp. 458-467.
[4] S. Scheding, G. Dissanayake, E. Nebot, and H. Durrant-Whyte,"An experiment in autonomous navigation of an underground mining vehicle", IEEE Trans. Robot. Automat. vol 15, Feb 1999 pp.85-95.
[5] S. Thrun, W. Burgard, D. Fox "Probabilistic Robotics" The MIT Press Cambridge, Massachusetts London, England 2005, pp 126-129.
[6] M. Ollis and A. Stentz, "Vision-based perception for an autonomous harvester" in Proc. IEEE/RSJ Int. Conf. Intelligent Robotic Systems, Sept.1997, pp.1838-1844.
[7] S. Sukkarieh, E. M. Nebot , and H. Durrant-Whyte,"Achiving integrity in an ins/gps navigation loop for autonomous land vehicle applications", in IEEE Int. Conf. Robotics and Automation, May 1998, pp 3437-3442.
[8] G. Welch and G. Bishop, "Introduction to the Kalman Filter". Technical Report TR 95-041, Department of Computer Science, University of North Carolina at Chapel Hill, 1995, pp 19-31.
[9] J. L. Crowley, "Mathematical Foundation of Navigation and Perception for an Autonomous Mobile Robot", Tutorial presented at the International Workshop on Reasoning with Uncertainty in Robotics, University of Amsterdam, The Netherlands Dec. 4-6, 1995, pp 2-4.
[10] J. Borenstein, H. Everet, L. Feng, and D. Wehe "Mobile Robot Positioning -sensors and Techniques", Journal of Robotic Systems, Special Issue on Mobile Robots Vol. 14, No. 4, 1997 pp. 231 - 249.
[11] G. Antonelli, S. Chiaverini "A Deterministic Filter for Simultaneous Localization and Odometry Calibration of Differential-Drive Mobile Robot" Univerita deli Studi , Cassino (FR) , Italy 2008, pp. 1-3.
[12] S. J. Julier "Process Model for Navigation of High-Speed Land Vehicle" PhD. Dissertation, Dept. Eng., Oxford Univ., UK, 1997, pp 34- 35