PERSONAL AUTHENTICATION METHOD USING SUBCUTANEOUS BLOODSTREAM MEASUREMENT AND PERSONAL AUTHENTICATION DEVICE
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Accused Products
Abstract
In a personal authentication method using the subcutaneous bloodstream measurement where an expanded laser beam is irradiated onto a finger pad, light reflected from a subcutaneous blood vessel layer is imaged on an image sensor as a laser speckle using an optical system, a quantity that represents the rate of change with respect to time of the amount of light received for each pixel of the laser speckle is calculated, the values are used as a two-dimensional map to obtain a map showing the bloodstream of the finger pad, and the bloodstream map is comparison-checked against pre-registered data of individuals, the laser speckle is imaged on the image sensor using a region separate from a region irradiated by the laser beam as an observation region of the image sensor. A device for use in the method is also provided. Relating to a method and device for authentication using, e.g., a finger print pattern on the basis of the laser speckle, an improved technique capable of extracting, e.g., the finger print pattern accurately is provided.
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Citations
16 Claims
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1. (canceled)
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2. A personal authentication method through measurement of a subcutaneous bloodstream comprising:
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expanding a laser beam and irradiating the expanded laser beam to a finger pad; focusing light reflected from a subcutaneous blood vessel layer onto an image sensor plane as laser speckles by using an optical system; determining an amount representing a rate of time variation of light intensity received at each pixel point in the laser speckles and setting a numerical value thus obtained as a two-dimensional map to thereby achieve obtain a bloodstream map of the finger pad; comparison-checking a fingerprint pattern appearing as the bloodstream map with pre-registered personal data for authentication; and calculating time variation of an average bloodstream in the whole area or some area, and comparing the time variation concerned with a predetermined reference for authentication, wherein said laser speckles are focused onto the image sensor plane using a region separate from a region irradiated by the laser beam as an observation region of the image sensor, the laser beam forms a linear spot, the image sensor is a linear sensor and the linear spot is arranged in parallel with the observation region of the linear sensor. - View Dependent Claims (3, 4, 5, 15, 16)
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6. A personal authentication device through measurement of a subcutaneous bloodstream comprising:
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one or two irradiating means for expanding a laser beam and irradiating the expanded laser beam to a finger pad; light receiving means that has many pixels and receives light reflected from a subcutaneous blood vessel layer of the finger pad; storage means for storing the output of each pixel achieved by the light receiving means; calculation means for calculating an amount representing a rate of time variation of light intensity received at each pixel from storage content of the storage means; second storage means for storing a two-dimensional distribution of a calculation result achieved at each pixel as a bloodstream map; means for comparing the bloodstream map stored in the second storage means with pre-registered personal data for authentication; means for calculating time variation of an average bloodstream in the whole area or some area and comparing the time variation concerned with a predetermined reference for authentication, wherein a region for irradiating the expanded laser beam in said irradiating means is arranged separate from an observation region of an image sensor for reflected light in said light receiving means, the irradiating means irradiates the laser beam as a linear spot, the light receiving means is a line sensor and the linear spot is arranged in parallel with an observation region of the linear sensor. - View Dependent Claims (7)
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8-12. -12. (canceled)
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13. A personal authentication method through measurement of a subcutaneous bloodstream comprising:
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expanding a laser beam and irradiating the expanded laser beam to a finger pad; focusing light reflected from a subcutaneous blood vessel layer onto an image sensor plane as laser speckles by using an optical system; determining an amount representing a rate of time variation of light intensity received at each pixel point in the laser speckles and setting a numerical value thus achieved obtained as a two-dimensional map to thereby obtain a bloodstream map of the finger pad; and comparison-checking a fingerprint pattern appearing as the bloodstream map with pre-registered personal data for authentication, wherein the laser beam is irradiated to the finger pad through a masking shield with a number of horizontally-long slits to form a lattice-shaped laser spot, the spot is arranged in the same direction as a scanning line of the sensor, and data on the spot is analyzed to detect a surface layer bloodstream of the finger pad and time variation thereof or data between each spot is analyzed to detect an internal layer bloodstream of the finger pad and time variation thereof.
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14. A personal authentication method through measurement of a subcutaneous bloodstream comprising:
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expanding a laser beam and irradiating the expanded laser beam to a finger pad; focusing light reflected from a subcutaneous blood vessel layer onto an image sensor plane as laser speckles by using an optical system; determining an amount representing a rate of time variation of light intensity received at each pixel point in the laser speckles and setting a numerical value thus obtained as a two-dimensional map to thereby obtain a bloodstream map of the finger pad; comparison-checking a fingerprint pattern appearing as the bloodstream map with pre-registered personal data for authentication; and calculating a time variation of an average bloodstream in the whole area or some area, and comparing the time variation concerned with a predetermined reference for authentication, wherein the laser beam is irradiated to the finger pad through a masking shield with a number of horizontally-long slits to form a lattice-shaped laser spot, the spot is arranged in the same direction as a scanning line of the sensor, and data on the spot is analyzed to detect a surface layer bloodstream of the finger pad and time variation thereof or data between each spot is analyzed to detect the bloodstream and time variation thereof
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Specification