Drone provided with a vertical-view video camera compensated for the instantaneous rotations for estimation of the horizontal speeds

1 . a drone ( 10 ), comprising: a vertical-view video camera ( 16 ), adapted to point towards a scene of the ground (T) overflown by the drone, to capture a sequence of images of this scene and to deliver as an output a corresponding digital image signal (S camV ); an inertial unit ( 154 ) comprising gyrometric sensors ( 102 ) adapted to measure the Euler angles (φ, θ, Ψ) characterising the attitude of the drone with respect to an absolute terrestrial reference system (UVW) and to deliver as an output a gyrometric signal (S gyro ) representative of the instantaneous rotations of the drone; rotation compensation means ( 136 ), receiving as an input i) the image signal (S camV ) delivered by the camera and ii) the gyrometric signal (S gyro ) delivered by the inertial unit, and delivering as an output retimed image data, compensated for the rotations of the drone from one image to the following one; and means ( 138 ) for estimating the horizontal speeds of the drone based on the displacements from one image to the following one of the scene captured by the camera, these estimation means receiving as an input said retimed image data, characterized in that: the camera and the inertial unit are piloted by a common clock ( 160 ); the frequency of acquisition of the gyrometric sensors is a multiple of the frequency of delivery of the image signal of the camera; and it is further provided a circuit ( 170 ) adapted to: compare the gyrometric signal (S gyro ) delivered by the inertial unit with the image signal (S camV ) delivered by the camera; determine the value of the phase-shift between these respective signals; apply this phase-shift value at the input of the rotation compensation means ( 136 ); and the rotation compensation means ( 136 ) are further adapted to perform, before the computation of said retimed image data, a previous correction of resynchronization of the image signal (S camV ) delivered by the camera onto the gyrometric signal delivered by the inertial unit. 2 . The drone of claim 1 , wherein said circuit ( 170 ) adapted to compare the gyrometric signal delivered by the inertial unit with the image signal delivered by the camera, to determine the value of the phase-shift between these respective signals, and to apply this phase-shift value at the input of the rotation compensation means, is a hardware-technology circuit. 3 . The drone of claim 1 , further comprising: integrator means, adapted to integrate the gyrometric signal delivered by the inertial unit over the time interval comprised between the delivery of image signals corresponding to two consecutive images of the sequence of images.