IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0458925
(2006-07-20)
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등록번호 |
US-7561098
(2009-07-27)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Honeywell International Inc.
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인용정보 |
피인용 횟수 :
1 인용 특허 :
7 |
초록
▼
Methods and systems for estimating and correcting airborne radar antenna pointing errors. The methods and systems include predicting expected received power from at least one scattering source using terrain elevation information, transmitting a radar signal to the at least one scattering source, mea
Methods and systems for estimating and correcting airborne radar antenna pointing errors. The methods and systems include predicting expected received power from at least one scattering source using terrain elevation information, transmitting a radar signal to the at least one scattering source, measuring received power from the at least one scattering source, determining an antenna pointing error based on the predicted and measured received power, and adjusting an antenna angle, an input value, or other components based on the determined antenna pointing error. The methods and systems also include a radar processing and control unit for predicting expected received power from at least one scattering source using a model of the radar power measurement process that includes terrain elevation information, for measuring received power from the at least one scattering source, and for determining antenna pointing error based on the predicted and measured received power.
대표청구항
▼
The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A method for estimating radar pointing errors comprising: a) receiving a previously determined prediction of expected received power from at least one scattering source, the previously
The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A method for estimating radar pointing errors comprising: a) receiving a previously determined prediction of expected received power from at least one scattering source, the previously determined prediction having used terrain elevation information; b) transmitting a radar signal to the at least one scattering source; c) measuring received power from the at least one scattering source; and d) determining an antenna pointing error based on the predicted and measured received power; and e) adjusting at least one of the following based on the determined antenna pointing error: an antenna elevation angle; an antenna azimuth angle; a pitch value input from an inertial navigation system (INS); a roll value input from the INS; an antenna elevation angle input value from an antenna elevation position sensor; and an antenna azimuth angle input value from an antenna azimuth position sensor. 2. The method of claim 1, wherein determining comprises: calculating dP=the measured power-the predicted power; calculating a mean elevation angle of the antenna to a group of scattering sources; calculating El=the mean elevation angle-elevation angle of the antenna; if dP*El is not positive, updating one or more of a pitch error (PE), a roll error (RE), and an elevation error (EE) using the following formulas: PE=PE-D*cos(azimuth angle); RE=RE+D*sin(azimuth angle); and EE=EE-D; and if dP*El is positive, updating one or more of PE, RE, and EE using the following formulas: PE=PE+D*cos(azimuth angle); RE=RE-D*sin(azimuth angle); and EE=EE+D, wherein D is a predefined positive constant. 3. The method of claim 1, further comprising repeating a-e. 4. The method of claim 1, wherein determining comprises: calculating dP=measured power-predicted power; deriving a positive D from dP; calculating a mean elevation angle; calculating El=the mean elevation angle-elevation angle of antenna axis; if dP*El is not positive, updating one or more of a pitch error (PE), a roll error (RE), and an elevation error (EE) using the following formulas: PE=PE-D*cos(azimuth angle) RE=RE+D*sin(azimuth angle) EE=EE-D; and if dP*El is positive, updating one or more of PE, RE, and EE using the following formulas: PE=PE+D*cos(azimuth angle) RE=RE-D*sin(azimuth angle) EE=EE+D. 5. The method of claim 1, wherein determining comprises: calculating dP=measured power-predicted power; deriving a positive D from dP; calculating a mean elevation angle; calculating El=the mean elevation angle-elevation angle of antenna axis; if dP*El is not positive, updating a pitch error (PE) and a roll error (RE) using the following formulas: PE=PE-D*cos(azimuth angle) RE=RE+D*sin(azimuth angle); and if dP*El is positive, updating PE and RE using the following formulas: PE=PE+D*cos(azimuth angle) RE=RE-D*sin(azimuth angle). 6. The method of claim 1, wherein determining comprises: calculating dP=measured power-predicted power; calculating a mean elevation angle; calculating El=the mean elevation angle-elevation angle of antenna axis; if dP*El is not positive, updating a pitch error (PE) and a roll error (RE) using the following formulas: PE=PE-D*cos(azimuth angle) RE=RE+D*sin(azimuth angle); and if dP*El is positive, updating PE and RE using the following formulas: PE=PE+D*cos(azimuth angle) RE=RE-D*sin(azimuth angle), wherein D is a predefined positive constant. 7. The method of claim 1, wherein the method is performed for each antenna pointing angle. 8. The method of claim 7, wherein the method is performed for each range bin. 9. A system for estimating radar pointing errors comprising: an antenna control system in signal communication with a radar processing and control unit, the radar processing and control unit comprising: a first component for measuring received power from at least one scattering source; and a second component for determining antenna pointing error based on a previously determined prediction of received power from the at least one scattering source and the measured received power. 10. The system of claim 9, wherein the second component comprises: a first subcomponent for calculating dP=measured power-predicted power; a second subcomponent for calculating a mean elevation angle; a third subcomponent for calculating El=the mean elevation angle-elevation angle of antenna axis; a fourth subcomponent for determining if dP*El is positive; a fifth subcomponent for updating one or more of a pitch error (PE), a roll error (RE), and an elevation error (EE) using the following formulas if dP*El is not positive: PE=PE-D*cos(azimuth angle) RE=RE+D*sin(azimuth angle) EE=EE-D; and a sixth subcomponent for updating one or more of PE, RE, and EE using the following formulas for if dP*El is positive: PE=PE+D*cos(azimuth angle) RE=RE-D*sin(azimuth angle) EE=EE+D, wherein D is a predefined positive constant. 11. The system of claim 9, further comprising: an antenna control system in signal communication with the radar processing and control unit; and an antenna connected to the antenna control system, wherein the radar processing and control unit further comprises a third component for adjusting the antenna via the antenna control system based on the determined antenna pointing error. 12. The system of claim 11, wherein the third component adjusts the antenna elevation angle. 13. The system of claim 9, wherein the second component comprises: a first subcomponent for calculating dP=measured power-predicted power; a second subcomponent for deriving a positive D from dP; a third subcomponent for calculating a mean elevation angle; a fourth subcomponent for calculating El=the mean elevation angle-elevation angle of antenna axis; a fifth subcomponent for determining if dP*El is positive; a sixth subcomponent for updating one or more of a pitch error (PE), a roll error (RE), and an elevation error (EE) using the following formulas if dP*El is not positive: PE=PE-D*cos(azimuth angle) RE=RE+D*sin(azimuth angle) EE=EE-D; and a seventh subcomponent for updating one or more of PE, RE, and EE using the following formulas for if dP*El is positive: PE=PE+D*cos(azimuth angle) RE=RE-D*sin(azimuth angle) EE=EE+D. 14. The system of claim 9, wherein the second component comprises: a first subcomponent for calculating dP=measured power-predicted power; a second subcomponent for deriving a positive D from dP; a third subcomponent for calculating a mean elevation angle; a fourth subcomponent for calculating El=the mean elevation angle-elevation angle of antenna axis; a fifth subcomponent for determining if dP*El is positive; a sixth subcomponent for updating a pitch error (PE) and a roll error (RE) using the following formulas if dP*El is not positive: PE=PE-D*cos(azimuth angle) RE=RE+D*sin(azimuth angle); and a seventh subcomponent for updating PE and RE using the following formulas if dP*El is positive: PE=PE+D*cos(azimuth angle) RE=RE-D*sin(azimuth angle). 15. The system of claim 9, wherein the second component comprises: a first subcomponent for calculating dP=measured power-predicted power; a second subcomponent for calculating a mean elevation angle; a third subcomponent for calculating El=the mean elevation angle-elevation angle of antenna axis; a fourth sub component for determining if dP*El is positive; a fifth subcomponent for updating a pitch error (PE) and a roll error (RE) using the following formulas if dP*El is not positive: PE=PE-D*cos(azimuth angle) RE=RE+D*sin(azimuth angle); and a sixth subcomponent for updating PE and RE using the following formulas if dP*El is positive: PE=PE+D*cos(azimuth angle) RE=RE-D*sin(azimuth angle), wherein D is a predefined positive constant. 16. The system of claim 9, wherein the radar processing and control unit further comprises a third component for directing the first and second components to perform their functions for each antenna pointing angle. 17. The system of claim 16, wherein the third component also directs the first and second components to perform their functions for each range bin.
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