Radar with high angular accuracy, notably for the obstacle sensing and avoidance function
First Claim
1. A radar device comprising:
- in transmission, a coloured transmission system comprising at least two contiguous antennas, the first antenna transmitting a first code and the second antenna transmitting a second code, the two codes being mutually orthogonal;
filtering means separating the received signals into two signals R1 and R2, the signal R1 corresponding to the first code and the signal R2 corresponding to the second code, a first measurement of the angle of arrival of the target echo being obtained by applying the single-pulse measurement principle to the two signals R1 and R2, said second measurement having a measurement accuracy and an ambiguity level;
in reception, an interferometer comprising at least two receiving antennas, supplying a phase measurement and therefore a second measurement of the angle of arrival of a target echo, said first measurement having a direction accuracy and an ambiguity level;
the measurement retained for an angle of arrival of a target echo having the direction accuracy of the second measurement and the angular ambiguity level of the first measurement.
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Accused Products
Abstract
The present invention relates to a radar device with high angular accuracy. The solution provided by the invention simultaneously combines an interferometer that is accurate but, for example, ambiguous when receiving; and a space coloring mode when transmitting. The coloring of the space consists notably in transmitting on N transmitting antennas N orthogonal signals. These signals are then separated by filtering on reception using the orthogonality properties of the transmission signals. It is, for example, possible, with two contiguous antennas in transmission associated with two orthogonal codes to produce a single-pulse type system when transmitting. The invention applies notably to the obstacle sensing and avoidance function, also called “Sense & Avoid”.
27 Citations
5 Claims
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1. A radar device comprising:
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in transmission, a coloured transmission system comprising at least two contiguous antennas, the first antenna transmitting a first code and the second antenna transmitting a second code, the two codes being mutually orthogonal; filtering means separating the received signals into two signals R1 and R2, the signal R1 corresponding to the first code and the signal R2 corresponding to the second code, a first measurement of the angle of arrival of the target echo being obtained by applying the single-pulse measurement principle to the two signals R1 and R2, said second measurement having a measurement accuracy and an ambiguity level; in reception, an interferometer comprising at least two receiving antennas, supplying a phase measurement and therefore a second measurement of the angle of arrival of a target echo, said first measurement having a direction accuracy and an ambiguity level; the measurement retained for an angle of arrival of a target echo having the direction accuracy of the second measurement and the angular ambiguity level of the first measurement. - View Dependent Claims (2, 3, 4, 5)
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5. The radar device according to claim 1 further configured such that the measurements are made in the elevation plane and in the azimuth plane.
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Specification