Method for determining of statistical characteristics of evaluated distance obtained from measurements of Doppler frequency offsets

This paper presents a technique for obtaining of the main statistical characteristics of the distance estimation between the flying object and a hyperbolic navigation system using two Doppler frequency shifts of the navigation signal. This problem arises when the guidance of the object at a target point along a hyperbola using a bistatic hyperbolic navigation system is considered. Despite the fact that the object guidance loop is closed according to the time difference of arrival information, it is necessary to enter the distance between the object and the center of the navigation system into the algorithm for generating control commands in order to stabilize the frequency response of the control loop and eliminate dynamic errors. This article discusses the statistical characteristics of the estimated range based on the measurements of three values of the object’s speed: its own speed and two projections of this speed on the lines connecting the object with the navigation positions.

1. Legkastup V.V. Shaban S.A., Markevich V.E. Procedure of the synthesis of control device by the method of analytical design of the optimal regulator for the problem of aircraft guidance along a hyperbola. Doklady BGUIR 2022; 20(1).

2. Legkostup V.V., Markevich V.E. Methodology of determining of the transfer function of engagement kinematics of accelerations of an aircraft and its elliptic coordinates used for thr guidance based on time difference of arrival. «System analysis and applied information science». 2021;(1):12-20.

3. Legkostup V.V. Methodology of determining of the transfer function of engagement kinematics of accelerations of an aircraft and its elliptic coordinates in alternative representation. «System analysis and applied information science». 2021;(3):15-24.

4. Legkostup V.V., Markevich V.E. Method for determining of the distance to the object in the hyperbolic navigation system via doppler frequency offsets. «System analysis and applied information science». 2021;(4):40-46.

5. Wentzel E. S. Probability theory: textbook. for universities / E. S. Wentzel. 5th ed. – M.: Higher. school. 1998. – 576 p.

6. Hinkley D.V. On the Ratio of Two Correlated Normal Random Variables. Biometrika, Vol. 56 (3), 1969, pp. 635–639.

7. Díaz-Francés, Eloísa; Rubio, Francisco J. On the existence of a normal approximation to the distribution of the ratio of two independent normal random variables. Statistical Papers. Springer Science and Business Media LLC. 54 (2): 309–323.

8. Johnson, N.L., Kotz, S., Balakrishnan, N. Continuous Univariate Distributions, Vol. 1, 2nd Edition. John Wiley, New York, 1994.

9. Burr, Cumulative Frequency Functions. Annals of Mathematical Statistics, Vol. 13, No. 2, 1942, pp. 215-232.

10. Roth M., Ozkan E., Gustafsson F. A Student’s t-fi for heavytailed process and measurement noise, ”2013 IEEE International Conference on Acoustis, Speech and Signal Processing”, Vancouver, BC, 2013, pp. 5770-5774.