Inexpensive adaptive fingerprint image acquisition framegrabber
First Claim
1. An adaptive image frame grabber comprising:
- an analog to digital converter, to digitize inputted image data;
a memory, to save digitized image data from an output of said analog to digital converter;
a central processing unit to control operations of said adaptive image grabber;
wherein at the start of the frame grabber operation, an image window comprised by a predefined number of pixels is extracted from an acquired image frame, an average pixel vector is calculated, wherein the average pixel vector is related to the ratio of the sum of the values of said pixels within said window to said predefined number of pixels, and said average pixel vector is compared to a predetermined threshold value;
wherein said average pixel vector is used to select an offset and measurement range of said analog to digital converter, andwherein if the result of a comparison is outside predetermined limits, at least one subsequent image frame is acquired and an average pixel vector is calculated for each of said subsequent frames the acquiring of a fingerprint image frame, extracting of said image window, calculating of said average pixel vector, and selecting of said offset and measurement range, repeating until the value of said average pixel vector is less than a first threshold value and a greater than a second threshold value.
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Abstract
An advanced low cost adaptive frame grabber is described. Its main area of application is in fingerprint identification and verification systems, but it could successfully be used in other biometric identification systems, such as facial, iris or eye identification and/or verification systems. The invented framegrabber is also very suitable for all applications in other areas, like medical electronics, car electronics etc., where automatic image enhancement and/or transformation from grey scale to line art is required. The adaptive framegrabber automatically estimates the dynamic range of the acquired image and sets up a proper offset and measurement range for a video analog to digital converter (ADC). It could also be operated in two different modes, in one the image is acquired as a full grey scale image, and in the other--as a line art (black and white) image. Full controls over the image size and resolution are provided.
119 Citations
2 Claims
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1. An adaptive image frame grabber comprising:
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an analog to digital converter, to digitize inputted image data; a memory, to save digitized image data from an output of said analog to digital converter; a central processing unit to control operations of said adaptive image grabber; wherein at the start of the frame grabber operation, an image window comprised by a predefined number of pixels is extracted from an acquired image frame, an average pixel vector is calculated, wherein the average pixel vector is related to the ratio of the sum of the values of said pixels within said window to said predefined number of pixels, and said average pixel vector is compared to a predetermined threshold value; wherein said average pixel vector is used to select an offset and measurement range of said analog to digital converter, and wherein if the result of a comparison is outside predetermined limits, at least one subsequent image frame is acquired and an average pixel vector is calculated for each of said subsequent frames the acquiring of a fingerprint image frame, extracting of said image window, calculating of said average pixel vector, and selecting of said offset and measurement range, repeating until the value of said average pixel vector is less than a first threshold value and a greater than a second threshold value.
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2. An adaptive image frame grabber method comprising the steps of:
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acquiring an image frame; extracting an image window from an acquired image frame, wherein said image window is comprised of a predefined number of pixels; calculating from said predefined number of pixels an average pixel vector wherein the average pixel vector is related to the ratio of the sum of the values of said pixels within said window to said predefined number of pixels; comparing said average pixel vector to predetermined threshold values; selecting new measurement parameters of an image input device based on the value of said average pixel vector and repeating said acquiring of a fingerprint image frame, said extracting of an image window, said calculating of an average pixel vector, and said selecting of new measurement parameters, until the value of said average pixel vector is less than a first threshold value and greater than a second threshold value.
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Specification