Study of a solid-state vibrating gyroscope in the mode of determining the true azimuth of a given direction and the latitude of the location of the object

Abstract

The accuracy of determining navigation parameters, the true azimuth of the specified direction, and the latitude of the object's location is being investigated using a Coriolis vibratory gyroscope with a cylindrical metal resonator as a sensitive element of the tactical accuracy class for stabilization systems and control of moving objects. The study used a scheme of a scanning single-component analytical gyroscope compass with the ability to provide vertical direction scanning during the input axis of the angular velocity sensor – the Coriolis vibratory gyroscope. The obtained root-mean-square value of 0,32°·secφ of the error in determining the true azimuth of the specified direction under conditions close to normal confirms the potential possibility of using a Coriolis vibratory gyroscope with a cylindrical metal resonator in orientation and attitude heading reference systems. The average error of 0,34 in determining the latitude of the object's location obtained under the same conditions, with a root-mean-square value of of it is scatter, correlates with the expected result.