Abstract: The appliance includes a touch screen and wireless data transmission implementation for communicating with the drone. Drone piloting commands are activated by fingers contacting and/or moving over locations of corresponding piloting symbols displayed on the screen. The method proceeds by: detecting finger contact at an arbitrary contact point in at least one predefined zone of the screen on which piloting symbols are not already displayed; displaying a piloting icon on the screen at the contact point, the piloting icon including a movable icon displayed at a position that tracks any movement of the finger contact point over the screen from an initial position to an offset position; detecting the movement of the movable icon; on detecting the movement, analyzing the direction and/or the amplitude of the movement relative to the initial position; and activating a piloting command as a function of the result of the analysis.

Abstract: The respective motors of the drone (10) can be controlled to rotate at different speeds in order to pilot the drone both in attitude and speed. A remote control appliance produces a command to turn along a curvilinear path, this command comprising a left or right turning direction parameter and a parameter that defines the radius of curvature of the turn. The drone receives said command and acquires instantaneous measurements of linear velocity components, of angles of inclination, and of angular speeds of the drone. On the basis of the received command and the acquired measurements, setpoint values are generated for a control loop for controlling motors of the drone, these setpoint values controlling horizontal linear speed and inclination of the drone relative to a frame of reference associated with the ground so as to cause the drone to follow curvilinear path (C) at predetermined tangential speed (u).

Abstract: The respective motors of the drone (10) can be controlled to rotate at different speeds in order to pilot the drone both in attitude and speed. A remote control appliance produces a command to turn along a curvilinear path, this command comprising a left or right turning direction parameter and a parameter that defines the radius of curvature of the turn. The drone receives said command and acquires instantaneous measurements of linear velocity components, of angles of inclination, and of angular speeds of the drone. On the basis of the received command and the acquired measurements, setpoint values are generated for a control loop for controlling motors of the drone, these setpoint values controlling horizontal linear speed and inclination of the drone relative to a frame of reference associated with the ground so as to cause the drone to follow curvilinear path (C) at predetermined tangential speed (u).

Abstract: The appliance comprises a touch screen and wireless data transmission means for communicating with the drone. Drone piloting commands are activated by one or two fingers making contact with and/or moving over the locations of corresponding piloting symbols displayed on the screen. The method proceeds by: a) detecting finger contact at an arbitrary contact point in at least one predefined zone of the screen on which piloting symbols are not already displayed; b) displaying a piloting icon on the screen at said contact point, the piloting icon comprising a movable icon displayed at a position that tracks any movement of the finger contact point over the screen from an initial position to an offset position; c) detecting the movement of the movable icon; d) on detecting said movement, analyzing the direction and/or the amplitude of the movement relative to the initial position; and e) activating a piloting command as a function of the result of said analysis.