Autonomous system for taking moving images, comprising a drone and a ground station, and associated method

What is claimed is: 1 . A system for taking moving images, comprising: a drone provided with a camera; a ground station communicating with the drone through a wireless link, the displacements of the drone being defined by piloting commands applied to a propulsion unit or a set of propulsion units of the drone, the drone being adapted to fly along a trajectory that is at least in part predetermined, to take moving images of a target, and to adjust the sight angle of the camera during the displacements of the drone, and as the case may be, of the target, so that at each instant, the image taken by the camera contain the position of the target; a drone management module comprising program code enabled upon execution to perform: determining a static trajectory of the drone with respect to the target for the shooting; determining a dynamics of displacement of the drone along the static trajectory; and generating flying instructions for the drone based on the two determinations and on information about the target position over time. 2 . The system according to claim 1 , wherein determining a static trajectory of the drone comprise selecting in association with a user interface of the ground station, a trajectory among a set of memorized trajectories. 3 . The system according to claim 2 , wherein determining a static trajectory of the drone comprise making in association with the user interface the adjustment of at least one parameter of the selected trajectory. 4 . The system according to claim 2 , wherein the memorized trajectories comprise at least two trajectories selected from the group consisting of: bell-shaped trajectories, closed-curve trajectories, helix trajectories, and zoom trajectories. 5 . The system according to claim 1 , wherein the program code further adjusts on the determined trajectory a shoot beginning position and a shoot end position. 6 . The system according to claim 1 , wherein determining a dynamics of displacement of the drone along the static trajectory comprises determining in a user interface an evolution of speed along the static trajectory. 7 . The system according to claim 6 , wherein the determination of the evolution of the speed comprises the determination of points of arrest of the drone. 8 . The system according to claim 6 , wherein the determination of the evolution of the speed comprises the determination of a speed reversal of the drone. 9 . The system according to claim 1 , wherein the camera is a wide-angle fixed camera of the fisheye type, and adjusts said camera sight angle, adapted to frame and process the wide-angle images taken by the camera. 10 . The system according to claim 1 , wherein the camera is a camera mounted on a three-axis articulated support of a gimbal type with Cardan suspension, provided with servomotors, and adjusts said camera sight angle, adapted to pilot said servomotors 11 . A ground station, adapted to communicate through a wireless link with a drone provided with a camera, to send the drone piloting commands so as for the drone to fly along a trajectory that is at least in part predetermined, for taking moving images of a target, the station comprising: a processor and memory; and, a drone management module comprising program code enabled upon execution by the processor in the memory to perform: determining a static trajectory of the drone with respect to the target for the shooting; determining a dynamics of displacement of the drone along the static trajectory; and generating flying instructions for the drone based on the two determinations and on information about the target position over time. 12 . A method for determining a trajectory that a drone must travel along for taking moving images of a target comprising the steps of: selecting a static trajectory the drone must travel along with respect to the target; determining a dynamics of displacement of the drone along this static trajectory; and generating flying instructions for the drone based on the selected static trajectory, the determined dynamics and the coordinates of the target.