Method and system for reducing effects of undesired signals in an infrared imaging system
First Claim
1. An imaging system for reducing an effect of an undesired infrared light source using a desired infrared light source and an image capture device that detects emissions of both the undesired infrared light source and the desired infrared light, comprising:
- a desired infrared light source that is positioned on a first side of a light permeable surface, the desired infrared light source selectively emitting desired infrared light that is transmitted through the light permeable surface onto a physical object positioned on or adjacent to an opposite side of the light permeable surface and is reflected back through the light permeable surface by the physical object;
an image capture device that is positioned on the same first side of the light permeable surface as the desired infrared light source, the image capture device sensing the desired infrared light after it is reflected by the physical object, and also sensing undesired infrared light that passes through the light permeable surface from undesired sources of infrared light located on the opposite side of the light permeable surface;
a screening device that is positioned on the same first side of the light permeable surface as the desired infrared light source and between the desired infrared light source and the image capture device to prevent the desired infrared light from entering the image capture device prior to being reflected back through the light permeable surface by the physical object;
a processor in communication with the desired infrared light source and the image capture device; and
a memory in communication with the processor, the memory storing data and machine instructions that cause the processor to carry out a plurality of functions, including;
activating the desired infrared light source during a first image capture interval;
capturing a first set of image data during the first image capture interval with the image capture device;
deactivating the desired infrared light source during a second image capture interval;
capturing a second set of image data during the second image capture interval with the image capture device; and
generating a composite set of image data from the first and second set of image data to thereby substantially eliminate the undesired infrared light from the composite set of image data.
1 Assignment
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Accused Products
Abstract
Effects of undesired infrared light are reduced in an imaging system using an infrared light source. The desired infrared light source is activated and a first set of imaging data is captured during a first image capture interval. The desired infrared light source is then deactivated, and a second set of image data is captured during a second image capture interval. A composite set of image data is then generated by subtracting from first values in the first set of image data corresponding second values in the second set of image data. The composite set of image data thus includes a set of imaging where data all infrared signals are collected, including both signals resulting from the IR source and other IR signals, from which is subtracted imaging in which no signals result from the IR course, leaving image data including signals resulting only from the IR source.
132 Citations
8 Claims
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1. An imaging system for reducing an effect of an undesired infrared light source using a desired infrared light source and an image capture device that detects emissions of both the undesired infrared light source and the desired infrared light, comprising:
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a desired infrared light source that is positioned on a first side of a light permeable surface, the desired infrared light source selectively emitting desired infrared light that is transmitted through the light permeable surface onto a physical object positioned on or adjacent to an opposite side of the light permeable surface and is reflected back through the light permeable surface by the physical object; an image capture device that is positioned on the same first side of the light permeable surface as the desired infrared light source, the image capture device sensing the desired infrared light after it is reflected by the physical object, and also sensing undesired infrared light that passes through the light permeable surface from undesired sources of infrared light located on the opposite side of the light permeable surface; a screening device that is positioned on the same first side of the light permeable surface as the desired infrared light source and between the desired infrared light source and the image capture device to prevent the desired infrared light from entering the image capture device prior to being reflected back through the light permeable surface by the physical object; a processor in communication with the desired infrared light source and the image capture device; and a memory in communication with the processor, the memory storing data and machine instructions that cause the processor to carry out a plurality of functions, including; activating the desired infrared light source during a first image capture interval; capturing a first set of image data during the first image capture interval with the image capture device; deactivating the desired infrared light source during a second image capture interval; capturing a second set of image data during the second image capture interval with the image capture device; and generating a composite set of image data from the first and second set of image data to thereby substantially eliminate the undesired infrared light from the composite set of image data. - View Dependent Claims (2, 3, 4)
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5. An imaging system for reducing an effect of an undesired infrared light source using a desired infrared light source and an image capture device that detects emissions of both the undesired infrared light source and the desired infrared light, comprising:
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a desired infrared light source that is positioned on a first side of a light permeable surface, the desired infrared light source selectively emitting desired infrared light that is transmitted through the light permeable surface onto a physical object positioned on or adjacent to an opposite side of the light permeable surface and is reflected back through the light permeable surface by the physical object; an image capture device that is positioned on the same first side of the light permeable surface as the desired infrared light source, the image capture device sensing the desired infrared light after it is reflected by the physical object, and also sensing undesired infrared light that passes through the light permeable surface from undesired sources of infrared light located on the opposite side of the light permeable surface, the image capture device further generating an image capture signal; a screening device that is positioned on the same first side of the light permeable surface as the desired infrared light source and between the desired infrared light source and the image capture device to prevent the desired infrared light from entering the image capture device prior to being reflected back through the light permeable surface by the physical object; an infrared light source controller configured to; receive the image capture signal; and selectively actuate the desired infrared light source in response to receipt of the image capture signal, such that the desired infrared light source is activated on receipt of a first image capture signal indicating a first image capture interval and deactivated on receipt of a second image capture signal indicating a second image capture interval; a processor in communication with the desired infrared light source and the image capture device; and a memory in communication with the processor, the memory storing data and machine instructions that cause the processor to carry out a plurality of functions, including; capturing a first set of image data with the image capture device during the first image capture interval; capturing a second set of image data with the image capture device during the second image capture interval; and generating a composite set of image data from the first and second set of image data to thereby substantially eliminate the undesired infrared light from the composite set of image data. - View Dependent Claims (6, 7, 8)
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Specification