Lock-in imaging system for detecting disturbances in fluid
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04N-007/18
G01P-005/26
G01P-005/00
G01S-001/14
G01S-017/95
출원번호
US-0020194
(2011-02-03)
등록번호
US-8913124
(2014-12-16)
발명자
/ 주소
Park, Yeonjoon
Choi, Sang Hyouk
King, Glen C.
Elliott, James R.
Dimarcantonio, Albert L.
출원인 / 주소
The United States of America as represented by the Administrator of the National Aeronautics and Space Administration
대리인 / 주소
Riley, Jennifer L.
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
A lock-in imaging system is configured for detecting a disturbance in air. The system includes an airplane, an interferometer, and a telescopic imaging camera. The airplane includes a fuselage and a pair of wings. The airplane is configured for flight in air. The interferometer is operatively dispos
A lock-in imaging system is configured for detecting a disturbance in air. The system includes an airplane, an interferometer, and a telescopic imaging camera. The airplane includes a fuselage and a pair of wings. The airplane is configured for flight in air. The interferometer is operatively disposed on the airplane and configured for producing an interference pattern by splitting a beam of light into two beams along two paths and recombining the two beams at a junction point in a front flight path of the airplane during flight. The telescopic imaging camera is configured for capturing an image of the beams at the junction point. The telescopic imaging camera is configured for detecting the disturbance in air in an optical path, based on an index of refraction of the image, as detected at the junction point.
대표청구항▼
1. A lock-in imaging system configured for detecting disturbances in fluids including air, the system comprising: an interferometer located on an aircraft configured for producing an interference pattern by splitting a coherent beam of light into two coherent beams along two paths and recombining th
1. A lock-in imaging system configured for detecting disturbances in fluids including air, the system comprising: an interferometer located on an aircraft configured for producing an interference pattern by splitting a coherent beam of light into two coherent beams along two paths and recombining the two coherent beams at a junction point in front of a flight path;a plurality of mirrors configured for directing the two coherent beams toward one another at the junction point; anda telescopic imaging camera located on the aircraft configured for capturing an image of the interference pattern of the two coherent beams at the junction point where the two coherent beams of light recombine in front of the flight path;wherein at least one of the plurality of mirrors is disposed on a tip of a pair of wing, from a pair of wines of the aircraft,wherein the telescopic imaging camera is configured for detecting the disturbance of the fluid along an optical path of the two coherent beams based on an index of refraction of the image detected at the junction point in front of the flight path, and wherein the telescopic imaging camera is configured for detecting the disturbance of the fluid along the optical path of the two coherent beams based on a pressure dependent change of the index of refraction of the air. 2. A system, as set forth in claim 1, wherein the telescopic imaging camera includes an optical filter configured to filter out background scenery. 3. A system, as set forth in claim 1, wherein the telescopic imaging camera is configured for capturing a plurality of frame images per second and for producing a phase signal in at least one of an on state and an off state. 4. A system, as set forth in claim 3, wherein the system is configured such that the phase signal from the telescopic imaging camera is divided by a frequency divider to capture at least one image in the on state and to capture at least one other image in the off state. 5. A system, as set forth in claim 2, wherein the optical filter is one of a band-pass filter and a laser induced fluorescence filter. 6. A system, as set forth in claim 4, wherein the interferometer includes: a coherent light source configured for emitting a coherent beam of light;a beam splitter configured for splitting the coherent beam of light into two coherent beams; anda plurality of mirrors configured for directing the two coherent beams toward one another at the junction point. 7. A system, as set forth in claim 6, wherein the coherent light source is one of a laser and a maser. 8. A system, as set forth in claim 6, wherein the interferometer further includes a pair of beam expanders and divergence controls, wherein each of the pair of beam expanders and divergence controls are operatively disposed between one of the plurality of mirrors and the junction point such that each of the two coherent beams is directed through a respective one of the pair of beam expanders and divergence controls to expand each of the two coherent beams to a desired cross-section at the junction point. 9. A system, as set forth in claim 6, wherein the coherent light source is configured to produce the phase signal in response to emitting the beam of coherent light. 10. A system, as set forth in claim 9, wherein the system further includes a processor in operative communication with the coherent light source and the telescopic imaging camera, wherein the processor is configured for analyzing the images of the pair of beams at the junction point as a function of the phase signal. 11. A lock-in imaging method of detecting disturbances in fluids including air, the method comprising: producing an interference fringe pattern at a junction point in front of a flight path with an interferometer located on an aircraft by splitting a beam of coherent light into two coherent beams along two paths and recombining the two coherent beams at the junction point in front of a flight path using a plurality of mirrors, at least one of which is disposed on a tip of a wing, from a pair of wings of the aircraft;capturing an image of the interference pattern of the two coherent beams at the junction point in front of a flight path with a telescopic imaging camera located on the aircraft; anddetecting the disturbance of the fluid in an optical path of the two coherent beams based on an index of refraction of the image captured by the telescopic imaging camera at the junction point in front of the flight path, and wherein the telescopic imaging camera is configured for detecting the disturbance of the fluid along the optical path of the two coherent beams based on a pressure dependent change of the index of refraction of the air. 12. A method, as set forth in claim 11, further comprising producing a phase signal in at least one of an on state and an off state such that the phase signal from the telescopic imaging camera is divided by a frequency divider to capture at least one image frame in the on state and to capture at least one other image frame in the off state. 13. A method, as set forth in claim 12, further comprising summing the image frames over a period of time using a modulated sources phase signal to multiply a weighting factor to sequential image frames to cancel out background scenery and amplify phase-locked fringe patterns. 14. A method, as set forth in claim 11, wherein producing the interference fringe pattern at the junction point with the interferometer includes: emitting the coherent beam of light from a coherent light source;splitting the coherent beam of light into a pair of coherent beams of light; anddirecting the pair of coherent beams of light toward one another at the junction point. 15. A method, as set forth in claim 14, further comprising expanding each of the two coherent beams of light to a desired cross-section at the junction point. 16. A method, as set forth in claim 15, further comprising producing a phase signal in response to emitting the coherent beam of light from the coherent light source. 17. A method, as set forth in claim 16, analyzing the images of the two coherent beams at the junction point as a function of the phase signal with a processor. 18. A system configured for detecting a disturbance in air, the system comprising: an airplane having a fuselage and a pair of wings, wherein the airplane is configured for flight in air;an interferometer operatively disposed on the airplane and configured for producing an interference pattern by splitting a coherent beam of light into two coherent beams along two paths and recombining the two coherent beams at a junction point in front of a flight path of the airplane during flight;a plurality of mirrors configured for directing the two coherent beams towards one another at the junction point; anda telescopic imaging camera located on the airplane configured for capturing an image of the interference pattern of the two coherent beams at the junction point in front of the flight path;wherein at least one of the plurality of mirrors is disposed on a tip of each of the wings,wherein the telescopic imaging camera is configured for detecting the disturbance in air along an optical path of the two coherent beams based on an index of refraction of the image detected at the junction point in front of the flight path, and wherein the telescopic imaging camera is configured for detecting the disturbance of the fluid along the optical path of the two coherent beams based on a pressure dependent change of the index of refraction of the air. 19. A system, as set forth in claim 18, wherein the telescopic imaging camera is configured for capturing a plurality of frame images per second and for producing a phase signal in at least one of an on state and an off state; and wherein the system is configured such that the phase signal from the telescopic imaging camera is divided by a frequency divider to capture at least one image in the on state and to capture at least one other image in the off state. 20. A system configured for detecting a disturbance in air, the system comprising: an airplane having a fuselage and a pair of wings, wherein the airplane is configured for flight in air;an interferometer operatively disposed on the airplane and configured for producing an interference pattern by splitting a coherent beam of light into two coherent beams along two paths and recombining the two coherent beams at a junction point in front of a flight path of the airplane during flight; anda telescopic imaging camera located on the airplane configured for capturing an image of the interference pattern of the two coherent beams at the junction point in front of the flight path;wherein the telescopic imaging camera is configured for detecting the disturbance in air along an optical path of the two coherent beams based on an index of refraction of the image detected at the junction point in front of the flight path,wherein the interferometer includes:a coherent light source operatively disposed on the fuselage of the airplane and configured for emitting the coherent beam of light;a beam splitter operatively disposed on the fuselage of the airplane and configured for splitting the coherent beam of light into the two coherent beams; anda plurality of mirrors configured for directing the two coherent beams of light toward one another at the junction point;wherein at least one of the plurality of mirrors are disposed on a tip of each of the wings.
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이 특허에 인용된 특허 (8)
Minoshima Masahiko (Tokyo JPX), Air flow surveying apparatus and method.
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