Method for measuring a direction of incidence of an incident wave for an instantaneous wideband receiver and associated receiver

The invention claimed is: 1. A method for measuring an incidence direction of a wave for an instantaneous wideband receiver, the method consists of: said instantaneous wideband receiver including an array of at least two antennas which points in different directions and respective radiation patterns of which overlap one another, wherein, each antenna including at least two radiating elements so as to be able to work in a first operating mode associated with a first radiation pattern, where the two radiating elements being in phase, and according to a second operating mode associated with a second radiation pattern, different from the first radiation pattern, where the two radiating elements being in phase opposition, acquiring, for each antenna, a first signal corresponding to the first operating mode of the antenna considered and a second signal corresponding to the second operating mode of the antenna considered; determining, for each antenna, half ton angle of a cone of possible incidence directions from the amplitude of the first signal and the amplitude of the second signal; and calculating a bearing angle and/or an elevation angle of the incidence direction by intersecting the cones of possible directions of incidence determined for each antenna. 2. The method according to claim 1 , wherein the half top angle of the cone of possible incidence direction for an antenna is determined from the ratio of the amplitude of the first signal over the amplitude of the second signal. 3. The method according to claim 2 , wherein the first and second radiation patterns formed by two radiating elements of an antenna are symmetrical by rotation around a pointing axis of the antenna. 4. The method according to claim 3 , wherein the half top angle ρi of the cone of possible incidence direction for the i th antenna of the array is obtained according to the relationship: ρ i=kSΔi/Σi, where k is a constant that only depends on the opening of the i th antenna at a given frequency, SΔi is the amplitude of the first signal and SΣi is the amplitude of the second signal. 5. The method according to claim 2 , wherein the ratio of the amplitude of the first signal to the amplitude of the second signal is obtained after a step of logarithmic amplification of the first and second signals, a step of difference between the amplified signals, and a step of exponential amplification of the difference obtained. 6. The method according to claim 1 , wherein the calculation of the bearing angle is done independently of, or simultaneously with, the calculation of the elevation angle. 7. The method according to claim 1 , wherein the first radiation patterns of two successive antennas of the array overlap one another at least over half of an opening of the antennas, and the second radiation patterns of two successive antennas of the array overlap one another at least over half of an opening of the antennas. 8. The method according to claim 1 , including, in parallel, an amplitude goniometry processing operation. 9. An instantaneous wideband receiver including: an array of at least two antennas, which point in different directions and respective radiation patterns of which overlap one another, each antenna including at least two radiating elements so as to work in a first operating mode associated with a first radiation pattern, where the two radiating elements are in phase, and according to a second operating mode associated with a second radiation pattern, different from the first radiation pattern, where the two radiating elements are in phase opposition; a means for acquiring, for each antenna, a first signal corresponding to the first operating mode of the antenna considered and a second signal corresponding to the second operating mode of the antenna considered; a means for determining, for each antenna, a half top angle of a cone of possible incidence directions from the amplitude of the first signal and the amplitude of the second signal; a means for calculating a bearing angle and/or an elevation angle of the incidence direction by intersecting the cones of possible directions of incidence determined for each antenna. 10. The receiver according to claim 9 , wherein the first and second radiation patterns formed by the two radiating elements of an antenna are symmetrical by rotation around a pointing axis of the antenna. 11. The receiver according to claim 9 , wherein each antenna of the array is a two-strand printed spiral antenna, each strand constituting one of the radiating elements of the antenna. 12. The receiver according to claim 11 , wherein the means for acquiring includes a wideband “magic tee” component, a first input of which is connected to one strand of the antenna, a second input of which is connected to the other strand of the antenna, a first output of which delivers the first signal, and a second output of which delivers the second signal. 13. The receiver according to claim 9 , wherein a means for determining is an analog or digital means including a logarithmic amplifier, a subtracter and an exponential amplifier for determining a ratio of the amplitude of the first signal to the amplitude of the second signal.