Method and apparatus for the automated identification of individuals by the nail beds of their fingernails
First Claim
1. A system for determining the identity of an individual, comprising:
- a. a plurality of light sources providing a corresponding plurality of beams of light,b. a modulator for modulating the amplitudes of said light sources at a plurality of respective frequencies,c. lens means for focusing said beams of light,d. coupling means for coupling said light beams from said sources to said lens means,e. an input port means,f. light beam deflection means for deflecting said beams of said light in a grid pattern to illuminate a discrete portion of said input port means,g. an output port means,h. sensing port means coupled to said input port means and said output port means for illuminating a discrete portion of said individual with said beams of light and sensing a corresponding plurality of beams of said light reflected from said discrete portion of said individual,i. photodetector sensing means for sensing the amplitudes of said beams of said reflected light,j. analog-to-digital converter means for converting the output of said photodetector sensing means to digital representations of said amplitudes, andk. computer means for storing the results of said digital representations of said amplitudes in a form which uniquely identifies said individual.
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Abstract
A system for encoding and recognizing individuals by the unique characteristics of their fingernails or other body part employs a master oscillator (430) which controls a plurality of monochromatic light sources (400) and (410). The light beams are coupled to an acousto-optic, 2-D beam deflector (500) which selectively illuminates individual input port fibers (530). The light beams then pass through sensing ports (520) and enter the individual'"'"'s skin or a fingernail. Light reflected from the individual'"'"'s body part then enters sensing ports (520) and exits through output ports (540). Output ports (540) are optically coupled to a CCD sensor (450) which detects the amplitudes of light reflected from the subject'"'"'s fingernail, for example. The output of sensor (450) is connected to an analog-to-digital converter (460), which in turn presents a digital representation of the intensity of the reflected light to a computer (470). This system measures the spacing of capillary loops (355) which are separated by valleys (362) in the nail bed (500) of fingernail (300). The spacings of loops (355) are unique to each individual, much as fingerprints are unique. Detection of loops (355) and determination of their spacings is accomplished through the use of two different wavelengths of light, one of which is strongly absorbed and the other of which is strongly scattered by blood which perfuses nail bed (500). After data analysis and correction, a simple binary representation of the relative positions of loops (355) is obtained, providing a positive, unique, and readily obtained identification of an individual subject.
125 Citations
18 Claims
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1. A system for determining the identity of an individual, comprising:
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a. a plurality of light sources providing a corresponding plurality of beams of light, b. a modulator for modulating the amplitudes of said light sources at a plurality of respective frequencies, c. lens means for focusing said beams of light, d. coupling means for coupling said light beams from said sources to said lens means, e. an input port means, f. light beam deflection means for deflecting said beams of said light in a grid pattern to illuminate a discrete portion of said input port means, g. an output port means, h. sensing port means coupled to said input port means and said output port means for illuminating a discrete portion of said individual with said beams of light and sensing a corresponding plurality of beams of said light reflected from said discrete portion of said individual, i. photodetector sensing means for sensing the amplitudes of said beams of said reflected light, j. analog-to-digital converter means for converting the output of said photodetector sensing means to digital representations of said amplitudes, and k. computer means for storing the results of said digital representations of said amplitudes in a form which uniquely identifies said individual. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for uniquely identifying individuals, comprising:
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selectively illuminating a nailbed of either a fingernail or a toenail of a body of an individual, said illuminating provided by plural light sources having respectively plural distinct wavelengths; detecting said plural distinct wavelengths of reflected light from said successive discrete portions of said portion of a body of said individual with a photodetector means said photodetector means converting and combining said reflected light of plural distinct wavelengths to a corresponding plurality of varying amplitude signals based on the intensities of said plural distinct wavelengths of reflected light at the output of said photodetector means; converting by receiving said plurality of varying amplitude signals from said plurality of outputs of said photodetector means to a corresponding plurality of binary digital representations for computational analysis; analyzing said binary digital representations to generate a ratio of said varying amplitude signals of respective plural distinct wavelengths, and presenting a unique binary result indicative of the identity of said individual. - View Dependent Claims (14)
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15. A system for determining the identity of an individual by illuminating a nailbed of either a fingernail or a toenail, comprising:
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a. a plurality of light sources emitting respectively different wavelengths providing a corresponding plurality of beams of light for illuminating said nailbed of said individual; b. an oscillator for modulating the amplitude of said light sources, and providing a first plurality of control signals for controlling the operation of said system; c. a lens; d. a fiber-optic coupler for coupling light from said light sources to said lens; e. a two-dimensional beam deflector; f. a photodetector array means for detecting said plural light beams of different wavelengths, said photodetector array means providing respectively a series of varying amplitude signals from said respective different wavelengths of said plural light beams; g. a fiber-optic sensing port coupled with said lens and said photodetector array means, said sensing port both illuminating and receiving reflected light from said discrete portion of said body of said individual; h. an analog-to-digital converter connected to said photo detector array means for receiving said series of varying amplitude signals and converting them into digital data representing said illuminated discrete body portion; and i. a computer for receiving said data from said analog-to-digital converter and generating an analysis derived from a ratio of said varying amplitude signals of said respective different wavelengths to provide a unique binary result indicative of the identity of said individual. - View Dependent Claims (16, 17, 18)
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Specification
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Current AssigneeAllen Topping, Austin Gormley, Vladimir Kuperschmidt
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Original AssigneeAllen Topping, Austin Gormley, Vladimir Kuperschmidt
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InventorsGormley, Austin, Topping, Allen, Kuperschmidt, Vladimir
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Primary Examiner(s)Kelley, Christopher S.
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Application NumberUS08/538,918Time in Patent Office951 DaysField of Search382/115, 382/116, 382/117, 382/124-127, 340/825.34, 356/71, 283/68, 283/69, 283/70, 250/227.26, 250/227.28US Class Current382/115CPC Class CodesG06F 18/00 Pattern recognitionG06V 40/10 Human or animal bodies, e.g...G07C 9/37 using biometric data, e.g. ...
