Alicia Roux scite author profile

This paper presents a deep learning approach to estimate a projectile trajectory in a GNSS-denied environment. For this purpose, Long-Short-Term-Memories (LSTMs) are trained on projectile fire simulations. The network inputs are the embedded Inertial Measurement Unit (IMU) data, the magnetic field reference, flight parameters specific to the projectile and a time vector. This paper focuses on the influence of LSTM input data pre-processing, i.e., normalization and navigation frame rotation, leading to rescale 3D projectile data over similar variation ranges. In addition, the effect of the sensor error model on the estimation accuracy is analyzed. LSTM estimates are compared to a classical Dead-Reckoning algorithm, and the estimation accuracy is evaluated via multiple error criteria and the position errors at the impact point. Results, presented for a finned projectile, clearly show the Artificial Intelligence (AI) contribution, especially for the projectile position and velocity estimations. Indeed, the LSTM estimation errors are reduced compared to a classical navigation algorithm as well as to GNSS-guided finned projectiles.

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Mortar Trajectory Estimation by a Deep Error-State Kalman Filter in a GNSS-Denied Environment

Roux

Changey

Lauffenburger

et al. 2023

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Alicia Roux

Projectile trajectory estimation: performance analysis of an Extended Kalman Filter and an Imperfect Invariant Extended Kalman Filter

CNN-based Invariant Extended Kalman Filter for projectile trajectory estimation using IMU only

LSTM-Based Projectile Trajectory Estimation in a GNSS-Denied Environment

Mortar Trajectory Estimation by a Deep Error-State Kalman Filter in a GNSS-Denied Environment

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