Abstract
in control systems for mobile objects, dynamically tunable gyroscopes (DTG) are widely used currently as sensitive inertial elements; in normal operating conditions, DTG have been adequately studied [i]. However, wider use of DTG, which are characterized by small size and energy demand, high levels of technological convenience and reliability, drift stability, and low cost, leads to expansion of the range of perturbations affecting the gyroscopic device, which necessitates the investigation of smaller-scale processes, such as nonlinear resonant oscillations.
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