Compact biometric authentication device and associated methodology of imaging and detecting living-tissue patterns
First Claim
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1. A device, comprising:
- a light emitter that emits near-infrared source light at a hemoglobin absorbance wavelength;
an imaging circuit that captures images of a blood vessel of a user based on scattered light which is a portion of said source light that has penetrated an epidermal layer and is scattered by tissue in a deep layer;
a discriminating circuit that discriminates whether tissue of the user is living-tissue or non-living-tissue by discriminating changes in an absorbance of the blood vessel between the images according to a heartbeat of the user; and
a detecting circuit that detects a biometric pattern based on the tissue when the discriminating circuit discriminates that the tissue is living-tissue,wherein the imaging circuit captures a first image of the blood vessel and a second image of the blood vessel, andwherein the discriminating circuit is configured to;
discriminate a difference between the absorbance of the blood vessel in the first image and the absorbance of the blood vessel in the second image,determine that the blood vessel is a part of living-tissue when the difference is above a predetermined threshold, anddetermine that the blood vessel is a part of non-living-tissue when the difference is below the predetermined threshold.
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Abstract
The apparatus enables biometric authentication without the risk of forgery or the like and enables living-tissue discrimination. The roughness distribution pattern of deep-layer tissue of the skin covered with epidermal tissue is detected, thereby extracting a unique pattern of the living tissue. Biometric authentication is performed based upon the detected pattern. The roughness distribution pattern of the deep-layer tissue of the skin is optically detected using difference in optical properties between the epidermal tissue and the deep-layer tissue of the skin. Long-wavelength light, e.g., near-infrared light, is used as illumination light cast onto the skin tissue. A fork structure of a subcutaneous blood vessel is used as the portion which is to be detected, for example. The portion which is to be detected is determined based upon the structure of the fork structure. The living-tissue discrimination may be made using the subcutaneous blood vessel.
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Citations
6 Claims
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1. A device, comprising:
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a light emitter that emits near-infrared source light at a hemoglobin absorbance wavelength; an imaging circuit that captures images of a blood vessel of a user based on scattered light which is a portion of said source light that has penetrated an epidermal layer and is scattered by tissue in a deep layer; a discriminating circuit that discriminates whether tissue of the user is living-tissue or non-living-tissue by discriminating changes in an absorbance of the blood vessel between the images according to a heartbeat of the user; and a detecting circuit that detects a biometric pattern based on the tissue when the discriminating circuit discriminates that the tissue is living-tissue, wherein the imaging circuit captures a first image of the blood vessel and a second image of the blood vessel, and wherein the discriminating circuit is configured to; discriminate a difference between the absorbance of the blood vessel in the first image and the absorbance of the blood vessel in the second image, determine that the blood vessel is a part of living-tissue when the difference is above a predetermined threshold, and determine that the blood vessel is a part of non-living-tissue when the difference is below the predetermined threshold. - View Dependent Claims (2, 3)
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4. A device, comprising:
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a light emitter that emits near-infrared source light at a hemoglobin absorbance wavelength; and processing circuitry configured to capture a first image of a blood vessel and a second image of the blood vessel based on scattered light which is a portion of said source light that has penetrated an epidermal layer and is scattered by tissue in a deep layer; discriminate whether tissue is living-tissue or non-living-tissue by discriminating a difference between an absorbance of the blood vessel in the first image and the second image according to a heartbeat of the user; determine that the blood vessel is a part of living-tissue when the difference is above a predetermined threshold; determine that the blood vessel is a part of non-living-tissue when the difference is below the predetermined threshold; and detect a biometric pattern based on the tissue when the tissue is determined to be living-tissue. - View Dependent Claims (5, 6)
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Specification
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Current AssigneeSony Corporation (Sony Group Corp.)
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Original AssigneeSony Corporation (Sony Group Corp.)
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InventorsTakiguchi, Kiyoaki
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Primary Examiner(s)Park, Edward
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Application NumberUS14/725,792Publication NumberTime in Patent Office1,530 DaysField of SearchUS Class CurrentCPC Class CodesG01N 21/49 within a body or fluidG06T 2207/30088 Skin; DermalG06T 2207/30101 Blood vessel; Artery; Vein;...G06T 7/0012 Biomedical image inspectionG06T 7/42 using transform domain methodsG06V 40/10 Human or animal bodies, e.g...G06V 40/1341 Sensing with light passing ...G06V 40/1347 Preprocessing; Feature extr...G06V 40/1365 Matching; ClassificationG06V 40/1388 using image processingG06V 40/1394 using acquisition arrangementsG06V 40/14 Vascular patternsG06V 40/145 Sensors therefor
