A subterranean radar array system and method for imaging a subterranean target area. In one example, the subterranean radar array includes a plurality of radar chains disposed in a plurality of underground columns, each radar chain including a plurality of radar units forming the plurality of radar
A subterranean radar array system and method for imaging a subterranean target area. In one example, the subterranean radar array includes a plurality of radar chains disposed in a plurality of underground columns, each radar chain including a plurality of radar units forming the plurality of radar chains and at least one processor coupled to a corresponding at least one of the plurality of radar chains and configured to generate an image of a subterranean target area from signals received from the at least one radar chain.
대표청구항▼
1. A method of imaging a subterranean target area, the method comprising: transmitting a radar signal horizontally toward the subterranean target area from a first sub-set of a plurality radar units, the plurality of radar units being arranged to form a plurality of radar chains that are individuall
1. A method of imaging a subterranean target area, the method comprising: transmitting a radar signal horizontally toward the subterranean target area from a first sub-set of a plurality radar units, the plurality of radar units being arranged to form a plurality of radar chains that are individually disposed in respective ones of a plurality of underground columns, each radar chain including at least two of the plurality of radar units vertically spaced apart from one another within the respective underground column, wherein the plurality of radar chains are horizontally spaced apart from one another and located at least a minimum horizontal distance away from the subterranean target area;receiving by a second sub-set of the plurality of radar units, a reflected signal from the subterranean target area; andprocessing the reflected signal to generate an image of the subterranean target area. 2. The method of claim 1, wherein transmitting the radar signal includes: transmitting continuous wave (CW) radar signal for a selected dwell time. 3. The method of claim 2, further comprising: producing a stable reference frequency oscillation signal;phase-locking the radar signal with the stable reference frequency oscillation signal; andaveraging the reflected signal over the dwell time. 4. The method of claim 1, wherein transmitting the radar signal further comprises transmitting the radar signal at a plurality of frequencies. 5. The method of claim 4, wherein transmitting the radar signal at the plurality of frequencies further comprises transmitting the radar signal at a frequency range of approximately 10 to 1000 megahertz. 6. The method of claim 1, wherein processing the reflected signal further comprises adjusting the image by determining material characteristics of the subterranean target area. 7. The method of claim 1, wherein processing the reflected signal further comprises interferometrically processing the reflected signal. 8. The method of claim 1, wherein processing the reflected signal further comprises integrating a plurality of images of the subterranean target area into a tomographic three-dimensional composite image. 9. The method of claim 1, wherein processing the reflected signal further comprises interactively back-projecting, the reflected signal to produce a three-dimensional composite image. 10. A subterranean radar array system comprising: a plurality of radar chains, each radar chain disposed in a respective one of a corresponding plurality of underground columns that are horizontally spaced apart from one another, each radar chain including a plurality of radar units vertically spaced apart from one another within the respective underground column, wherein at least one radar chain is configured to horizontally transmit a radar signal; anda controller coupled to the plurality of radar chains and configured to generate an image of a subterranean target area from reflections of the radar signal received by at least one radar chain of the plurality of radar chains. 11. The system of claim 10, wherein the plurality of radar chains are positioned with respect to one another to form a field of regard encompassing the subterranean target area. 12. The system of claim 10, wherein, for each of the plurality of radar chains, at least one first radar unit of the plurality of radar units is configured to transmit the radar signal, and at least one second radar unit of the plurality of radar units is configured to receive the reflections of the radar signal. 13. The system of claim 10, wherein each of the plurality of radar units further comprises: a radar antenna:a radar transmitter coupled to the radar antenna and configured to transmit the radar signal horizontally toward the subterranean target area; anda radar receiver coupled to the radar antenna and configured to receive the reflections of the radar signal from the subterranean target area. 14. The system of claim 13, wherein the radar antenna comprises a dipole radar antenna, including a pair of conductors. 15. The system of claim 10, wherein the controller is configured to control a dwell time of the radar signal. 16. The system of claim 10, wherein the radar signal has a frequency range of approximately 10 to 1000 megahertz.
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이 특허에 인용된 특허 (15)
Knaell Kenneth K. (Kensington MD) Heidbreder Glen R. (Reston VA), Apparatus and method for producing three-dimensional images.
Stove, George Colin, RADAR APPARATUS FOR IMAGING AND/OR SPECTROMETRIC ANALYSIS AND METHODS OF PERFORMING IMAGING AND/OR SPECTROMETRIC ANALYSIS OF A SUBSTANCE FOR DIMENSIONAL MEASUREMENT, IDENTIFICATION AND PRECISION RADA.
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