The United States of America as represented by the Secretary of the Army
대리인 / 주소
Compton, Eric Brett
인용정보
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0인용 특허 :
12
초록▼
A novel methodology for detecting cloud particles is disclosed herein. This methodology exploits the optical glory phenomenon. According to one embodiment, a method for detecting clouds includes receiving data from a sensor which is configured to measure polarization of scattered light in a directio
A novel methodology for detecting cloud particles is disclosed herein. This methodology exploits the optical glory phenomenon. According to one embodiment, a method for detecting clouds includes receiving data from a sensor which is configured to measure polarization of scattered light in a direction substantially opposite to the direction of incident light, and identifying, from the received sensor data, a cloud based on the polarization of the scattered light.
대표청구항▼
1. A method for detecting clouds, the method comprising: receiving data from a sensor which is configured to measure the polarization of an optical glory associated with a cloud, wherein the sensor is co-aligned with the direction of incident sunlight and measures the polarization of scattered light
1. A method for detecting clouds, the method comprising: receiving data from a sensor which is configured to measure the polarization of an optical glory associated with a cloud, wherein the sensor is co-aligned with the direction of incident sunlight and measures the polarization of scattered light in a direction substantially opposite to the direction of the incident sunlight during measurement; andidentifying, from the received sensor data, a cloud based on the polarization of the detected optical glory. 2. The method of claim 1, wherein the sensor is configured to measure the polarization of the scattered light diverging over a range of up to about 20° from the exact backscattered light direction of the incident sunlight. 3. The method of claim 1, the sensor is configured to measure the polarization of the scattered light diverging over a range of about 5-10° from the exact backscattered light direction of the incident sunlight. 4. The method of claim 1, wherein the sensor is configured to detect the s-polarization and p-polarization intensities of the measured scattered light. 5. The method of claim 4, wherein a cloud is identified if the detected p-polarization measurement is greater than the s-polarization measurement of the scattered light direction. 6. The method of claim 1, wherein the sensor or an image processor associated therewith is configured to provide the Stokes Parameters Q, U and I of polarization. 7. The method of claim 6, further comprising: calculating the degree of polarization normalized Mueller matrix element P12/P11 from the Stokes Parameters of polarization as follows: P12/P11=(IS−IP)/(IS+IP),where IS is the intensity of the s-polarized component of the light and IP is the intensity of the p-polarized component of the light. 8. The method of claim 7, wherein a cloud is identified if the calculated P12/P11 is negative near the backscattered light direction. 9. The method of claim 6, further comprising: calculating the angle of linear polarization (AOLP) from Stokes Parameters of polarization as follows: AOLP=12tan-1(UQ)+α0,where α0=0° if Q>0 and U≥0; α0=180° if Q>0 and U<0; and α0=90° if Q≤0. 10. The method of claim 9, wherein a cloud is identified if the calculated AOLP≤about 60° or ≥120°. 11. The method of claim 1, wherein the sensor is located on a satellite orbiting the Earth. 12. The method of claim 11, further comprising: transmitting the sensor data from the satellite to a ground station, receiving the transmitted sensor data at the ground station, or both transmitting the sensor data to and receiving the sensor data from the ground station. 13. The method of claim 1, wherein only scattered sunlight is measured by the sensor. 14. The method of claim 1, further comprising: identifying, from the received sensor data, a super-thin cloud based on the polarization of the scattered sunlight. 15. A method for detecting cloud particles, the method comprising; receiving data from a sensor which is configured to measure the polarization of an optical glory associated with a cloud, wherein the sensor measures the polarization of the scattered light diverging from the exact backscattered light direction of incident sunlight to detect the optical glory; andidentifying, from the received sensor data, cloud particles based on the polarization of the detected optical glory. 16. A system for detecting clouds, the system comprising: a sensor configured to measure the polarization of an optical glory associated with a cloud, wherein the sensor is configured to be co-aligned with the direction of incident sunlight and to measure the polarization of scattered light in a direction substantially opposite to the direction of the incident sunlight during measurement; anda processor configured to identify, from the measured sensor data, a cloud based on the polarization of the detected optical glory. 17. The system of claim 16, wherein the sensor comprises: at least one polarizer which filters incoming light having p-polarization, a lens which focuses the filtered light, and an image detector which receives the focused light. 18. The system of claim 17, wherein the at least one polarizer comprises (i) a rotating polarizer or (ii) three polarizers which are offset in angular orientation. 19. The system of claim 16, wherein the sensor is configured to measure the polarization of light having a wavelength of about 1.38 μm. 20. The system of claim 16, wherein the sensor is configured to measure the polarization of light having a wavelength of about 670 nm.
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