Predictive and adaptive weather radar detection system and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01S-013/95
G01S-007/292
G01S-013/00
G01S-007/00
출원번호
US-0405091
(2009-03-16)
등록번호
US-8203480
(2012-06-19)
발명자
/ 주소
Woodell, Daniel L.
Robertson, Roy E.
Olander, Peter A.
Finley, Jeffery A.
출원인 / 주소
Rockwell Collins, Inc.
대리인 / 주소
Suchy, Donna P.
인용정보
피인용 횟수 :
5인용 특허 :
61
초록▼
A method of detecting weather on an aircraft uses a weather radar system. The method adapts the weather radar system in accordance with a time-of-year parameter, a time-of-day parameter, and/or a location parameter to remove ground clutter reflectivity. The method includes determining the particular
A method of detecting weather on an aircraft uses a weather radar system. The method adapts the weather radar system in accordance with a time-of-year parameter, a time-of-day parameter, and/or a location parameter to remove ground clutter reflectivity. The method includes determining the particular parameter and automatically adjusting the weather radar system to display the weather in response to the parameter. The system can be implemented in hardware and/or software and can advantageously predict and identify weather and/or weather hazards more precisely.
대표청구항▼
1. An aircraft weather radar system for detecting weather using radar returns received at an antenna of the aircraft weather radar system, comprising: a database configured to associate a plurality of locations with ground clutter information; anda processing device configured to process the radar r
1. An aircraft weather radar system for detecting weather using radar returns received at an antenna of the aircraft weather radar system, comprising: a database configured to associate a plurality of locations with ground clutter information; anda processing device configured to process the radar returns and to adjust a setting for the weather radar system based on an association of a location in the database and ground clutter information relating to the location;wherein the processing device is further configured to determine the location by receiving global positioning system (GPS) signals related to the location of the aircraft. 2. The aircraft weather radar system of claim 1, wherein the ground clutter information comprises at least one of: (a) ground clutter rejection thresholds, and(b) ground clutter reflectivity values. 3. The aircraft weather radar system of claim 1, wherein adjusting a setting for the weather radar system comprises at least: applying a threshold control law to adjust a threshold for a weather radar display associated with the weather radar system. 4. The aircraft weather radar system of claim 1, wherein adjusting a setting for the weather radar system comprises at least: adjusting a weather radar signal gain. 5. The aircraft weather radar system of claim 1, wherein adjusting a setting for the weather radar system comprises at least: adjusting a tilt angle of a weather radar antenna. 6. The aircraft weather radar system of claim 1, wherein adjusting a setting for the weather radar system comprises at least: adjusting a ground clutter suppression threshold in order to suppress ground clutter. 7. An aircraft weather radar system for detecting weather using radar returns received at an antenna of the aircraft weather radar system, comprising: a database configured to associate a plurality of locations with ground clutter information; anda processing device configured to process the radar returns and to adjust a setting for the weather radar system based on an association of a location in the database and ground clutter information relating to the location;wherein the database further relates the plurality of locations and ground clutter information with at least one of a time-of-day and a time-of-year. 8. The aircraft weather radar system of claim 7, wherein adjusting a setting for the weather radar system comprises at least one of: (a) applying a threshold control law to adjust a threshold for a weather radar display associated with the weather radar system,(b) adjusting a weather radar signal gain,(c) adjusting a tilt angle of a weather radar antenna, and(d) adjusting a ground clutter suppression threshold in order to suppress ground clutter. 9. The aircraft weather radar system of claim 8, wherein the processing device is further configured to determine a ground clutter type at the location. 10. The aircraft weather radar system of claim 9, wherein the ground clutter type comprises a geographical terrain classification. 11. The aircraft weather radar system of claim 9, wherein the processing device further generates a weighting factor based on the location, the time-of-day, and the time-of-year, wherein the weighting factor is representative of the reflectivity of the ground clutter at the location. 12. An aircraft weather radar system that displays information via weather radar display electronics, the aircraft weather radar system comprising: a processing device configured to utilize at least one of a time-of-year parameter, a time-of-day parameter, and a location parameter to adjust a display threshold for displaying the information; wherein the processing device is configured to receive the location parameter from a global positioning system (GPS). 13. The system of claim 12, wherein the location parameter comprises information relating to known ground clutter targets. 14. An aircraft weather radar system that displays information via weather radar display electronics, the aircraft weather radar system comprising: a processing device configured to utilize at least one of a time-of-year parameter, a time-of-day parameter, and a location parameter to adjust a display threshold for displaying the information;wherein the adjusting occurs in response to the location parameter and the time-of-year parameter or the location parameter and the time-of-day parameter or the time-of-year parameter and the time-of-day parameter. 15. An aircraft weather radar system that displays information via weather radar display electronics, the aircraft weather radar system comprising: a processing device configured to utilize at least one of a time-of-year parameter, a time-of-day parameter, and a location parameter to adjust a display threshold for displaying the information;wherein the processing device is further configured to cause the aircraft weather radar system to adjust a radar beam tilt angle based on the at least one of a time-of-year parameter, a time-of-day parameter, and a location parameter. 16. An aircraft weather radar system that displays information via weather radar display electronics, the aircraft weather radar system comprising: a processing device configured to utilize at least one of a time-of-year parameter, a time-of-day parameter, and a location parameter to adjust a display threshold for displaying the information;wherein the processing device is further configured to apply a threshold control law to adjust precipitation rate associated with the information. 17. A method for detecting weather using an aircraft weather radar system, the method comprising: receiving electronic radar return data at the aircraft weather radar system and providing the radar return data to an electronic processing device;using the electronic processing device to determine a classification of the weather based on the radar return data; andusing the electronic processing device to select a weather sensing model in response to the classification of the weather; andusing the weather radar system to analyze the weather using the selected weather sensing model. 18. The method of claim 17, wherein determining the classification comprises at least one of: determining a height of the weather,determining a maturity level of the weather, anddetermining a phase of development of the weather. 19. The method of claim 17, wherein determining the classification is made in response to at least one of: reflectivity of the weather versus a vertical temperature gradient parameter of the weather, andreflectivity of the weather verses altitude isotherms of the weather. 20. The method of claim 17, wherein determining the classification is made in response to at least one of: altitude-based information,time-of-day based information, andseasonal information. 21. The method of claim 17, wherein determining the classification is made in response to at least one of: radar return data obtained from radar azimuth or elevation sweeps, andradar return data stored in a planar or volumetric memory. 22. The method of claim 17, wherein the weather sensing model comprises: information for directing dedicated azimuth, elevation and/or diagonal antenna sweeps of the aircraft weather radar system to acquire more information about the weather.
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