Enhanced Kalman Filter Navigation Algorithm Based on Correntropy and Fixed-Point Update-Reference-Cited by-同舟云学术

Enhanced Kalman Filter Navigation Algorithm Based on Correntropy and Fixed-Point Update

Published:2022-02-22 Issue:2 Volume:12 Page:110-129
ISSN:2226-809X
Container-title:International Journal of Engineering and Technology Innovation
language:
Short-container-title:Int. j. eng. technol. innov.

Author:

Pagoti Sirish Kumar,Vemuri Bala Sai Srilatha Indira Dutt,Mohiddin Mohammad Khaja

Abstract

The accuracy of position estimation plays a key role in many of the precise positioning applications such as category I (CAT-I) aircraft landings, survey work, etc. To improve the accuracy of position estimation, a novel kinematic positioning algorithm designated as correntropy Kalman filter (CKF) is proposed in this study. Instead of minimum mean square error (MMSE), correntropy criterion (CC) is used as the optimality criterion of CKF. The prior estimates of the state and covariance matrix are computed in CKF and a novel fixed-point algorithm is then used to update the posterior estimates. The data of a dual-frequency global positioning system (GPS) receiver located at Indian Institute of Science (IISc), Bangalore (13.021°N/77.5°E) is collected from Scripps Orbit and Permanent Array Centre (SOPAC) to implement the proposed algorithm. The results of the proposed CKF algorithm are promising and exhibit significant improvement in position estimation compared to the conventional methods.

Publisher

Taiwan Association of Engineering and Technology Innovation

Subject

Electrical and Electronic Engineering,Mechanical Engineering,Mechanics of Materials,Civil and Structural Engineering

Reference33 articles.

1. D. H. Ji, H. S. Choi, S. K. Jeong, J. Y. Oh, S. K. Kim, and S. S. You, “A Study on Heading and Attitude Estimation of Underwater Track Vehicle,” Advances in Technology Innovation, vol. 4, no. 2, pp. 84-93, April 2019.

2. M. Allahyari, M. J. Olsen, D. T. Gillins, and M. L. Dennis, “Evaluation of the Horizontal and Vertical Accuracy of GNSS Survey Observations from a Real-Time Network,” AGU Fall Meeting Abstracts, vol. 2016, pp. G21B-1003, December 2016.

3. International Civil Aviation Organization, “Manual on Required Navigation Performance (RNP),” Montreal: International Civil Aviation Organization, 1999.

4. H. Xiong, J. Tang, H. Xu, W. Zhang, and Z. Du, “A Robust Single GPS Navigation and Positioning Algorithm Based on Strong Tracking Filtering,” IEEE Sensors Journal, vol. 18, no. 1, pp. 290-298, January 2018.

5. X. Wang and M. Liang, “GPS Positioning Method Based on Kalman Filtering,” International Conference on Robots and Intelligent System, May 2018, pp. 77-80.

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