Patent ID: 8290644
Filing Date: 2012-10-16
Classification: G01C,G01S,G05D,G08G

Abstract:
1. A method for aiding aircraft approach and landing using a global navigation satellite system and a microwave landing system MLS system within the context of a computed axial approach, the MLS system comprising a landing runway, an elevation station and an azimuth station, the landing runway defining a right-handed Cartesian reference frame comprising as axes a first longitudinal axis of the landing runway, a second transverse axis of the landing runway passing through the elevation station, and a third axis perpendicular to the first and second axes, a point of intersection between the first axis and the second axis defining a runway point corresponding to the center of the reference frame, the elevation station comprising an elevation antenna and the azimuth station comprising an azimuth antenna, each antenna comprising a phase center, the phase centers of the elevation antenna and azimuth antenna being situated in a plane parallel to a plane at a distance from the runway point along the third axis, the method comprising the following steps: creating a reference point with the same coordinates as those of the phase center of at least one of the azimuth antenna and the elevation antenna; determining a distance between the reference point and the aircraft by the global navigation satellite system; determining an angle of azimuth between a straight line passing through the phase center of the azimuth antenna and the aircraft and a plane parallel to a plane passing through the phase center of the azimuth antenna; determining an angle of elevation between a straight line passing through the phase center of the azimuth antenna and the aircraft and the plane parallel to the plane passing through the phase centers of the elevation antenna and azimuth antenna; and determining, on the basis of the distance between the reference point and the aircraft, of the angle of azimuth and of the angle of elevation, the position of the aircraft with respect to the reference point, wherein the determination of the distance between the reference point and the aircraft comprising the following steps: creating, in the right-handed Cartesian reference frame, an intermediate point with the same coordinates as the coordinates of the runway point along the first axis and the second axis and with the same coordinate as the reference point along the third axis; determining a distance between the intermediate point and the aircraft; determining an angle of azimuth between the plane and a straight line passing through the reference point and the aircraft; determining a distance between the runway point and the reference point along the second axis; and computing the distance between the reference point and the aircraft through the relation ρ=√{square root over (