Detecting, tracking, and decoding pulse repetition frequency laser energy from laser designators
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01J-001/44
G01S-017/66
F41G-003/14
F41G-007/22
G01J-001/02
G01J-001/04
G01S-017/00
G01S-007/484
G01S-007/486
F41G-003/16
G01J-001/42
출원번호
US-0938409
(2015-11-11)
등록번호
US-10209362
(2019-02-19)
발명자
/ 주소
Nazemi, Jonathan
Rozploch, Robert
Barby, John P.
Eckhardt, Andrew
출원인 / 주소
Sensors Unlimited, Inc.
대리인 / 주소
Locke Lord LLP
인용정보
피인용 횟수 :
0인용 특허 :
10
초록▼
A pulse repetition frequency detector, tracker, and decoder includes a two-dimensional InGaAs FPA of photodetectors configured to convert laser signals into electrical signals. A ROIC is operatively connected to the InGaAs FPA to condition electrical signals from the InGaAs FPA. A module is operativ
A pulse repetition frequency detector, tracker, and decoder includes a two-dimensional InGaAs FPA of photodetectors configured to convert laser signals into electrical signals. A ROIC is operatively connected to the InGaAs FPA to condition electrical signals from the InGaAs FPA. A module is operatively connected to the ROIC to decode pulsed codes in the conditioned electrical signals and to provide output for tracking decoded laser spots in two-dimensional space. In another aspect, an imaging device includes an imager with an imaging FPA operatively connected to a first ROIC for imaging. A pulse repetition frequency detector, tracker, and decoder including a second ROIC as described above, is operatively connected to the first ROIC. The first and second ROICs are operatively connected to correlate the position of decoded laser spots in images from the imaging FPA.
대표청구항▼
1. A pulse repetition frequency detector, tracker, and decoder system comprising: a two-dimensional InGaAs FPA of photodetectors configured to convert laser signals into electrical signals;a first ROIC operatively connected to the InGaAs FPA to condition electrical signals from the InGaAs FPA; andat
1. A pulse repetition frequency detector, tracker, and decoder system comprising: a two-dimensional InGaAs FPA of photodetectors configured to convert laser signals into electrical signals;a first ROIC operatively connected to the InGaAs FPA to condition electrical signals from the InGaAs FPA; andat least one module operatively connected to the first ROIC to decode pulsed codes in the conditioned electrical signals and to provide output for tracking decoded laser spots in two-dimensional space, wherein the at least one module includes machine readable instructions configured to instruct the at least one module to: receive signals from the first ROIC for a series of images over time of pulsed energy reflected from at least one target, each image including a plurality of pulses related to different first and second pulse codes; detect the pulses in an image of received images; output pulse detection information including XY pixel coordinates and arrival time information associated with the respective detected pulses; associate the pulse detection information with the first and second pulse codes; and generate output position information for the at least one target in space, the output position being based on the XY pixel coordinates and associated with the corresponding first and second pulses, wherein the at least one module is operatively connected to receive image data from a second ROIC and includes supporting electronics for correlating image data from the second ROIC and decoded laser data from the first ROIC so the first and second ROICs can be operatively connected to correlate the position of decoded laser spots in images from the FPA. 2. A decoder as recited in claim 1, wherein the InGaAs FPA is configured to receive wavelengths up to and including 1700 nm. 3. A decoder as recited in claim 1, wherein the InGaAs FPA is configured to detect laser light of 1064 nm wavelength. 4. A decoder as recited in claim 1, wherein the InGaAs FPA is configured to detect laser light of 1550 nm wavelength. 5. A decoder as recited in claim 1, wherein the first ROIC is configured to read from the InGaAs FPA at a frequency of at least 20 kHz. 6. A decoder as recited in claim 1, wherein the first ROIC is operatively connected to the InGaAs FPA to condition electrical signals for tracking and decoding multiple laser spots at a time in the module. 7. A decoder as recited in claim 1, wherein the InGaAs FPA includes a plurality of rows and a plurality of columns of photodetectors. 8. A decoder as recited in claim 1, wherein the InGaAs FPA includes at least a 32 by 32 array of photodetectors. 9. A decoder as recited in claim 1, further comprising a filter assembly optically coupled to the InGaAs FPA of photodetectors to improve signal to noise ratio. 10. A decoder as recited in claim 1, wherein the at least one module operatively connected to the ROIC includes machine readable instructions configured to instruct the module to: associate the pulse detection information with a laser designator source; andgenerate output position information for the at least one target in space, the output position being based on the XY pixel coordinates and associated with the laser designator source. 11. A decoder as recited in claim 10, wherein the machine readable instructions include instructions configured to instruct the module to: determine whether a distance between the associated XY pixel coordinates associated with one of the detected pulses relative to pulse detector information associated with a previously received detected pulse having the same pulse code is within a predetermined threshold value; andif so, validate pulse detector information associated with that one of the detected pulses. 12. A decoder as recited in claim 1, further comprising an output connector configured to connect to an imaging device for communication of decoded laser pulse data from the at least one module to an imaging device. 13. An imaging device comprising: an imager including imaging FPA operatively connected to a first ROIC for imaging; anda pulse repetition frequency decoder operatively connected to the first ROIC, the decoder including: a two-dimensional InGaAs FPA of photodetectors configured to convert laser signals into electrical signals; anda second ROIC operatively connected to the InGaAs FPA to decode pulsed codes in electrical signals from the InGaAs FPA, wherein the first and second ROICs are operatively connected to correlate the position of decoded laser spots in images from the imaging FPA at least one module includes machine readable instructions configured to instruct the at least one module to: receive signals from the first ROIC for a series of images over time of pulsed energy reflected from at least one target, each image including a plurality of pulses related to different first and second pulse codes; detect the pulses in an image of received images; output pulse detection information including XY pixel coordinates and arrival time information associated with the respective detected pulses; associate the pulse detection information with the first and second pulse codes; and generate output position information for the at least one target in space, the output position being based on the XY pixel coordinates and associated with the corresponding first and second pulses, wherein the at least one module is operatively connected to receive image data from the second ROIC and includes supporting electronics for correlating image data from the second ROIC and decoded laser data from the first ROIC so the first and second ROICs can be operatively connected to correlate the position of decoded laser spots in images from the imaging FPA. 14. An imaging device as recited in claim 13, wherein the imaging FPA is configured for imaging in at least one of visible, thermal, or night vision. 15. An imaging device as recited in claim 13, wherein the InGaAs FPA is configured to receive wavelengths up to and including 1700 nm. 16. A pulse repetition frequency detector, tracker, and decoder system comprising: a two-dimensional InGaAs FPA of photodetectors configured to convert laser signals into electrical signals;a ROIC operatively connected to the InGaAs FPA to condition electrical signals from the InGaAs FPA; anda module operatively connected to the ROIC to decode pulsed codes in the conditioned electrical signals and to provide output for tracking decoded laser spots in two-dimensional space, wherein the module is operatively connected to the ROIC and includes machine readable instructions configured to instruct the module to:receive signals from the ROIC for a series of images over time of pulsed energy reflected from the at least one target, each image including a plurality of pulses related to different first and second pulse codes;detect the pulses in an image of the received images;output pulse detection information including XY pixel coordinates and arrival time information associated with the respective detected pulses;associate the pulse detection information with a laser designator source;generate output position information for the at least one target in space, the output position being based on the xy pixel coordinates and associated with the laser designator source;determine whether a distance between the associated XY pixel coordinates associated with one of the detected pulses relative to pulse detector information associated with a previously received detected pulse having the same pulse code is within a predetermined threshold value; andif so, validate pulse detector information associated with that one of the detected pulses.
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이 특허에 인용된 특허 (10)
Markov, Vladimir B.; Khizhnyak, Anatoliy I., Integrated multi-sensor surveilance and tracking system.
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