Non-damping system reset algorithm for shipborne grid strap-down inertial navigation systems

Abstract

The system reset algorithms realized in damping state rely heavily on the output of Doppler velocity logs (DVLs). Aiming at a shipborne grid strap-down inertial navigation system (SGSINS), this paper addresses a non-damping system reset algorithm to estimate the gyroscope drifts. First, the SGSINS is integrated with the DVL to estimate the horizontal attitude errors, and the estimation results are introduced to the system reset. Next, to ensure the equation can be utilized to design the non-damping system reset scheme, the equation is reformulated by reserving the horizontal attitude errors as the correction terms. Finally, with the assistance of two intermittent or short continuous external yaw and position, the two-point and optimum system reset schemes are designed based on the equation and equation. Simulation results indicate the algorithm can estimate the gyroscope drifts accurately in non-damping state. Compensating the gyroscope drifts can efficiently suppress the drifted errors in SGSINS. Because it takes a short time to estimate the horizontal attitude errors, compared with the existing algorithms realized in damping state, the proposed algorithm greatly shortens the time of using DVL, and this improves the reliability of the algorithm in practical application.