Radar System With Elevation Measuring Capability
First Claim
Patent Images
1. A radar system for recording the environment of a motor vehicle, comprising:
- transmission means for emitting transmission signals using one or more transmitter antennas;
receiving means for receiving transmission signals reflected by objects using one or more receiver antenna;
and signal processing means for processing the received signals,characterized in thatreceived signals are acquired from different combinations of transmitter and receiver antennas, a relative phase center, which is defined as the sum of the two vectors from a reference point to the phase centers of the respective transmitter antenna and receiver antenna, being assigned to each combination;
the transmitter and receiver antennas used in said combination have at least approximately the same emission characteristics and the emission characteristics of said transmitter antennas can be different from those of said receiver antennas;
the position of the relative phase centers of said combinations of transmitter and receiver N antennas with regard to a spatial direction S that runs perpendicular to a spatial direction R varies periodically with the period length P, when a series of said combinations of transmitter and receiver antennas, which is arranged in the spatial direction R with regard to the position of the relative phase centers, is viewed;
and in the signal processing means it is utilized that the received signals from an object have a phase portion that alternates with the period length P over the combinations of transmitter and receiver antennas arranged as above, depending on the angular position of said object in the spatial direction S, which is used to make assertions about the position of objects in the spatial direction S.
1 Assignment
0 Petitions
Accused Products
Abstract
The invention relates to a radar system for recording the environment of a motor vehicle, comprising:
- transmission means for emitting transmission signals using at least two transmitter antennas;
- receiving means for receiving transmission signals reflected by objects using one or more receiver antennas;
- and signal processing means for processing the received signals,
- characterized in that
- received signals are acquired from different combinations of transmitter and receiver antennas, a relative phase centre, which is defined as the sum of the two vectors from a reference point to the phase centers of the respective transmitter and receiver antenna, being assigned to each combination;
- the transmitter and receiver antennas used in said combination have at least approximately the same emission characteristics and the emission characteristics of said transmitter antennas can be different from those of said receiver antennas;
- the position of the relative phase centers of said combinations of transmitter and receiver antennas with regard to a spatial direction S that runs perpendicular to a spatial direction R varies periodically with the period length P, when a series of said combinations of transmitter and receiver antennas, which is arranged in the spatial direction R with regard to the position of the relative phase centers, is viewed;
- and in the signal processing means it is utilized that the received signals from an object have a phase portion that alternates with the period length P over the combinations of transmitter and receiver antennas arranged as above, depending on the angular position of said object in the spatial direction S, is used to make assertions about the position of objects in the spatial direction S.
351 Citations
26 Claims
-
1. A radar system for recording the environment of a motor vehicle, comprising:
-
transmission means for emitting transmission signals using one or more transmitter antennas; receiving means for receiving transmission signals reflected by objects using one or more receiver antenna; and signal processing means for processing the received signals, characterized in that received signals are acquired from different combinations of transmitter and receiver antennas, a relative phase center, which is defined as the sum of the two vectors from a reference point to the phase centers of the respective transmitter antenna and receiver antenna, being assigned to each combination; the transmitter and receiver antennas used in said combination have at least approximately the same emission characteristics and the emission characteristics of said transmitter antennas can be different from those of said receiver antennas; the position of the relative phase centers of said combinations of transmitter and receiver N antennas with regard to a spatial direction S that runs perpendicular to a spatial direction R varies periodically with the period length P, when a series of said combinations of transmitter and receiver antennas, which is arranged in the spatial direction R with regard to the position of the relative phase centers, is viewed; and in the signal processing means it is utilized that the received signals from an object have a phase portion that alternates with the period length P over the combinations of transmitter and receiver antennas arranged as above, depending on the angular position of said object in the spatial direction S, which is used to make assertions about the position of objects in the spatial direction S. - View Dependent Claims (2, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
wherein w(nAz) and w(nAZ+N/2) are the spectral values of the two power peaks with the frequency values nAz and nAz+N/2, nAz represents the frequency value corresponding to the azimuth angle α
Az, s is the vertical offset of the relative phase centers and λ
is the used central wavelength.
-
-
21. A radar system according to claim 1, in which S is the vertical direction and in which the estimate of the angular position of objects in this vertical spatial direction S is used to recognize a misalignment of the radar system in elevation direction.
-
22. A radar system according to claim 21, in which for recognizing a misalignment in elevation only sufficiently far away moved objects are used, and an averaging is effected via the estimated angular position of several objects, wherein a linear averaging or a nonlinear averaging is used.
-
23. A radar system according to claim 19, in which R is the horizontal direction and S is the vertical direction, so that by the phase portion that alternates with the period length P of the received signals of an object assertions can be made regarding the vertical position of the object, and in which, for recognizing objects which can be driven over or under
the imaginary part of the proportion V=j· - w(nAz+N/2)/w(nAz) is used directly or divided by the amount |V| of the proportion, wherein w(nAz) and w(nAz+N/2) are the spectral values of the two power peaks with the frequency values nAz and (nAz+N/2) and nAz represents the frequency value corresponding to the azimuth angle α
Az,and a conclusion is made regarding the height of objects above the road surface, from an amount, in particular filtered over the object distance, and/or distance-related variation of this measure.
- w(nAz+N/2)/w(nAz) is used directly or divided by the amount |V| of the proportion, wherein w(nAz) and w(nAz+N/2) are the spectral values of the two power peaks with the frequency values nAz and (nAz+N/2) and nAz represents the frequency value corresponding to the azimuth angle α
-
24. A radar system according to claim 1, in which a number NS of transmitter antennas and a number NE of receiver antennas, which do not lie with regard to their spatial distance R outside of the outer of these NE transmitter antennas, each have at least approximately the same emission characteristic and with regard to their phase centers in the spatial direction R are each arranged at least approximately equidistant, wherein in this spatial direction R the distance of these NS transmitter antennas to each other is larger by the factor NE or NE−
- 1 than the distance of these NE receiver antennas to each other, whereby an arrangement with a transmitter antenna and a maximum of NS·
NE receiver antennas equidistantly arranged in this spatial direction R is synthesized with an at least approximately identical emission characteristic.
- 1 than the distance of these NE receiver antennas to each other, whereby an arrangement with a transmitter antenna and a maximum of NS·
-
25. A radar system according to claim 24, in which
the NS transmitter and the NE receiver antennas are realized in planar technology and are arranged on a plane surface and at least two of the NS transmitter antennas and of the NE receiver antennas overlap with regard to the spatial direction R characterized in that this overlap is realized by at least one of the following arrangements and/or embodiments of the NS transmitter antennas and the NE receiver antennas: -
a) the antennas are offset to each other with regard to the spatial direction S that runs perpendicular to spatial direction R, b) the transmitter and/or the receiver antennas have an inclined form with regard to the spatial direction R, c) the antennas are intermeshed or interleaved into each other with regard to the spatial direction R, d) emitting and/or receiving elements are jointly used by at least two transmitter antennas and/or receiver antennas, and/or e) at least one antenna is used both for transmission and reception.
-
-
26. A radar system according to claim 1, in which
received signals from different combinations of transmitter and receiver antennas are acquired, the transmitter and receiver antennas used thereby each have at least approximately the same emission characteristic, wherein the emission characteristic of these transmitter antennas can be different from the emission characteristic of these receiver antennas, with regard to the spatial direction R the position of the relative phase centers of these combinations of transmitter and receiver antennas varies periodically with the period length Q by an equidistant raster, and in the signal processing means, for determining the position of objects in the spatial direction R it is utilized that the received signals of an object dependent on its angular position in the spatial direction R, apart from a linear phase portion, have a phase portion alternating with the period length Q, if a sequence of the combinations of transmitter and receiver antennas ordered in the spatial direction R with regard to the position of the relative phase centers is considered.
-
3-14. -14. (canceled)
Specification