An initial alignment approach for improving the accuracy of azimuth setting

Abstract

Considering the azimuth discrepancy between the main and sub-inertial navigation systems (INS) for a platform-carried unmanned aerial vehicles(UAV) in case of tilted launching at a large pitch angle, an initial alignment method for improving the accuracy of the azimuth setting is proposed. First, an algorithm for computing the azimuth discrepancy is derived. Then, a mathematical model for initial alignment is established based on azimuth setting. The simulation results show that correcting the azimuth discrepancy between the main and sub-INS can greatly improve the accuracy of azimuth setting, and therefore the initial alignment accuracy of the sub-INS. Meanwhile, the drift for the gyros in three directions can be effectively estimated.

Related Papers

• → Evaluation of a GPS-Based Approach for Rapid and Precise Determination of Geodetic/Astronomical Azimuth(2006)15 cited
• → Inertial navigation(1958)12 cited
• Analysis and simulation of rate azimuth inertial platform system(2009)
• → Error analysis for the rate azimuth platform INS(2019)
• → Error Analysis of Inertial Navigation Systems Using Test Algorithms(2015)