Constant altitude plan position indicator display for multiple radars
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01S-013/89
G01S-013/95
출원번호
UP-0206696
(2005-08-18)
등록번호
US-7821448
(2010-11-15)
우선권정보
IN-151/KOL/2005(2005-03-10)
발명자
/ 주소
Mahapatra, Pravas R.
Makkapati, Vishnu V.
출원인 / 주소
Honeywell International Inc.
대리인 / 주소
Schwegman Lundberg & Woessner, P.A.
인용정보
피인용 횟수 :
6인용 특허 :
29
초록▼
A system and a method to receive radar data from a plurality of radars and to reduce the data from the plurality of radars to a common universal latitude-longitude coordinate frame. The plurality of radars may be positioned at separate geographical locations and may have one or more overlapping regi
A system and a method to receive radar data from a plurality of radars and to reduce the data from the plurality of radars to a common universal latitude-longitude coordinate frame. The plurality of radars may be positioned at separate geographical locations and may have one or more overlapping regions. The data may be combined in the one or more overlapping regions.
대표청구항▼
The invention claimed is: 1. A system to reduce the data from a plurality of radars to a common universal latitude-longitude coordinate frame, the system comprising: radar data received from the plurality of radars, the plurality of radars at separate geographical locations and having one or more o
The invention claimed is: 1. A system to reduce the data from a plurality of radars to a common universal latitude-longitude coordinate frame, the system comprising: radar data received from the plurality of radars, the plurality of radars at separate geographical locations and having one or more overlapping radar regions; a processor to reduce the data from the plurality of radars to a common universal latitude-longitude coordinate frame having a constant altitude above the earth's surface that includes multiple data cells, and to combine data from multiple radars for at least one cell in the one or more overlapping radar regions and to fill in gaps in the coordinate frame using interpolation; and a memory to store an arc length for each radar beam elevation, and a weight and a range for each increment in each arc length for the constant altitude above the earth's surface. 2. The system of claim 1 further comprising a single image display of a group selected from combined radar data in the one or more overlapping regions and individual radar data in the one or more overlapping regions. 3. The system of claim 1 wherein the processor is to divide a latitude-longitude interval, spanning fields of view of the plurality of radars, into a plurality of blocks. 4. The system of claim 3 wherein a wind velocity is obtained, at one of the blocks, in three dimensions when there are at least three overlapping radars observing one of the plurality of blocks. 5. The system of claim 4 wherein the processor receives radar data from more than three overlapping radars observing one of the plurality of blocks, and where the processor uses a least squares method to calculate the wind velocity, at the one of the blocks, in three dimensions using the radar data received from more than three overlapping radars. 6. The system of claim 1 wherein there are one or more coordinates associated with the common universal latitude-longitude coordinate frame, wherein at one of the one or more coordinates there are no overlapping radar regions. 7. The system of claim 1 wherein the radar data includes scalar data, and the scalar data obtained at one radar resolution cell is averaged when there are overlapping radar regions at the one radar resolution cell. 8. The system of claim 1 wherein the memory to store an arc length for each radar beam elevation, and a weight and a range for each increment in each arc length for the constant altitude above the earth's surface comprises a look-up table. 9. A system to reduce the data from a plurality of radars to a common universal latitude-longitude coordinate frame, the system comprising: means for receiving radar data from the plurality of radars, the plurality of radars having one or more overlapping radar coverage regions; means for determining latitude-longitude coordinates associated with the radar data; means for combining the data, in latitude-longitude coordinates, in the one or more overlapping regions to provide a constant altitude plan position indicator for a desired altitude above the surface of the earth; and a memory to store an arc length for each radar beam elevation, and a weight and a range for each increment in each arc length for a constant altitude above the earth's surface. 10. The system of claim 9 wherein the means for combining the data in latitude-longitude coordinates includes a processor. 11. A method to reduce the data from a plurality of radars to a common universal latitude-longitude coordinate frame, the method comprising: receiving radar data from the plurality of radars, the plurality of radars having one or more overlapping radar regions; determining latitude-longitude coordinates associated with the radar data having a constant altitude above the earth's surface; combining the data in latitude-longitude coordinates corresponding to at least one cell in the one or more overlapping regions; calculating an arc length for each radar beam elevation, and a weight and a range for each increment in each arc length for the constant altitude above the earth's surface; and storing the arc length for each radar beam elevation, and the weight and range for each increment in each arc length for the constant altitude above the earth's surface in a look-up table. 12. The method of claim 11 further comprising displaying a single mosaiced image including combined radar data in the one or more overlapping regions and individual radar data in the one or more overlapping regions and a range weighted interpolation of cells to cover gaps in radar data. 13. The method of claim 11 further comprising dividing an interval of the latitude-longitude coordinates associated with the radar data into a plurality of blocks. 14. The method of claim 13 further comprising obtaining, at one of the blocks, a wind velocity in three dimensions when there are at least three overlapping radars observing one of the blocks. 15. The method of claim 14 further comprising receiving radar data from more than three radars for at least one block and using least squares method to calculate the wind velocity from the more than three overlapping radars observing one of the blocks. 16. The method of claim 13 further comprising obtaining, at one of the blocks, a wind velocity in two dimensions when there are at least two overlapping radars observing one of the blocks. 17. The method of claim 11 wherein the radar data includes scalar data, the method further comprising averaging the scalar data obtained at one of the coordinates, when there are overlapping radar observations at the one of the coordinates. 18. The method of claim 11 comprising: automatically determining a number of the plurality of radars observing a given location. 19. A computer-readable medium having program instructions to perform a method to reduce the data from a plurality of radars to a common universal latitude-longitude coordinate frame, the method comprising: receiving radar data from the plurality of radars, the plurality of radars having one or more overlapping radar regions having a constant altitude above the earth's surface; determining latitude-longitude coordinates associated with the radar data; combining the data in latitude-longitude coordinates corresponding to at least one cell in the one or more overlapping regions; calculating an arc length for each radar beam elevation, and a weight and a range for each increment in each arc length for the constant altitude above the earth's surface; and storing the arc length for each radar beam elevation, and the weight and range for each increment in each arc length for the constant altitude above the earth's surface in a memory.
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