Infrared chopper using binary diffractive optics
First Claim
1. A method for producing an image of a scene, using an infrared imaging system, comprising the steps of;
- (a) detecting the actual infrared radiation from said scene to form a biased signal representing the radiances of objects within said scene;
(b) diffracting the infrared radiation emitted by said scene by placing an array of diffracting lenslets so that rays of said radiation pass through said lenslets at angles that are deviated from their normal path, said array including an infrared transmissive deformable film which has stamped thereinto a pattern that includes a plurality of said diffracting lenslets, and which retains the pattern stamped thereinto;
(c) detecting said defracted and defocused radiation to form a reference signal;
(d) subtracting said reference signal from said biased signal to obtain an unbiased signal representing radiance difference emitted by said scene; and
(e) displaying an image generated in response to said unbiased signal.
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Accused Products
Abstract
A method uses an infrared imaging system to produce an image of a scene. Actual infrared radiation from the scene is detected to form a biased signal representing the radiances of objects wiithin the scene, and the biased signal is diffracted by causing rays of the radiation to pass through an array of lenslets at angles devitated from their normal path. The array includes an infrared transmissive deformable film which retains a pattern stamped into it, the pattern including a plurality of the diffracting lenslets. The diffracted and defocused radiation is detected to form a reference signal, the reference signal is subtracted from the biased signal to obtain an unbiased signal, and an image is generated and displayed in reponse to the unbiased signal.
24 Citations
7 Claims
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1. A method for producing an image of a scene, using an infrared imaging system, comprising the steps of;
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(a) detecting the actual infrared radiation from said scene to form a biased signal representing the radiances of objects within said scene;
(b) diffracting the infrared radiation emitted by said scene by placing an array of diffracting lenslets so that rays of said radiation pass through said lenslets at angles that are deviated from their normal path, said array including an infrared transmissive deformable film which has stamped thereinto a pattern that includes a plurality of said diffracting lenslets, and which retains the pattern stamped thereinto;
(c) detecting said defracted and defocused radiation to form a reference signal;
(d) subtracting said reference signal from said biased signal to obtain an unbiased signal representing radiance difference emitted by said scene; and
(e) displaying an image generated in response to said unbiased signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification
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- Resources
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Current AssigneeL-3 Communications Corporation (L3Harris Technologies, Inc.)
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Original AssigneeRaytheon Company (Rtx Corporation)
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InventorsGibbons, Robert C., Baber, S. Charles, McKenney, Samuel R., Chang, Richard R., Bell, Michael C.
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Primary Examiner(s)Hannaher, Constantine
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Assistant Examiner(s)Gabor, Otilia
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Application NumberUS09/841,772Publication NumberTime in Patent Office483 DaysField of Search250/340, 250/330, 250/332, 250/334, 250/349, 250/342, 250/347, 250/350, 250/351, 250/370.08, 359/356, 359/565, 359/19US Class Current250/340CPC Class CodesG02B 26/04 by periodically varying the...
