RU2364935C2 - Fingerprinting (scanner) device - Google Patents

Abstract

FIELD: physics; image processing.

SUBSTANCE: invention concerns digital image processing and can be used in the devices for automatic authentification or identification of the person. The technical result is reached because the device contains a prism, a light source, light from it, passing through a prism, shines a surface of a prism for fingerprint imaging, the plano-convex lens combined with an output surface of a prism, thus the prism is used with the lower matte surface, and a light source consisting of a matrix of light-emitting diodes, is covered with a film disseminating light, the objective consisting of several lenses with clarified optics, a relocator of an objective in the form of the cylinder having an internal cylindrical cavity with carving (hole), axes of symmetry of the cylinder and a cylindrical cavity (hole) displace rather each other, an objective screw in in a cylindrical cavity (hole), and the axis of symmetry of an objective corresponds to an optical axis of the device, and a sensor receiving the image from an objective.

EFFECT: increase of resolution of the device to the value not less than 600 dots per inch, and also abbreviation of time for device preliminary adjustment.

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Description

The present invention relates to digital image processing and can be used in devices that perform automatic authentication or identification.

Systems of this type are based on scanning and subsequent identification of one or several biological parameters of a person that are unique to him alone: the iris of the eye, handwriting, voice and, finally, fingerprints.

Currently, there are various biometric fingerprint recognition systems based on the use of the characteristic details of the papillary pattern (endings and branches of papillary fingerprint lines) [1, 2].

The effectiveness of these personality recognition systems depends on the accuracy of distinguishing characteristic details on a digital image of a fingerprint, reducing the number of falsely distinguished characteristic details by eliminating from subsequent processing areas that belong to the background, which usually contains noise.

The closest technical solution is a device for fingerprinting [3], including

- the first prism, one of the surfaces of which in one direction serves to take a fingerprint,

- a source of light passing through the first prism and used to illuminate the surface of the prism for fingerprinting,

- a microchannel (pinhole) placed in the path of light reflected from the surface for fingerprinting of the first prism, forming an image of the fingerprint of the first prism,

- the image plane created by the light from the first prism passing through the pinhole located to the right of the pinhole,

- a second prism placed between the pinhole and the image plane having an output surface parallel to the finger plane of the first prism, and a second input surface parallel to the output surface of the first prism and the pinhole.

Figure 1 shows the optical system of the prototype: where 1 is the first prism with a fingerprint surface 6 and an output surface 7, 2 is a light source, 3 is a pinhole, 4 is an image plane, 5 is a second prism with an input surface 8 and an output surface 9, 10 - optical axis.

The specified device has several disadvantages. So the resolution of the device is limited to 300-400 dpi, which is due to low light due to the use of a pinhole, and alignment of parallel surfaces requires a cumbersome technical solution.

The objective of the present invention is to obtain a technical result, which consists in increasing the resolution of the device for fingerprinting to a value of not less than 600 dpi and in reducing the alignment time of the system through the use of a plano-convex lens, a lens consisting of several lenses with brightened optics, and means of moving the lens.

To achieve the specified result in the device for fingerprinting [3], including:

- a prism, one of the surfaces of which in one direction serves for fingerprinting,

- a light source from which light passes through the prism and illuminates the surface of the prism for fingerprinting,

include a plano-convex lens, combined with the output surface of the prism, the prism being used with a lower matte surface, and the light source, consisting of a matrix of LEDs, is coated with a light-scattering film, a lens, consisting of several lenses with an illuminated optics, a means of moving the lens in the form of a cylinder, having an internal cylindrical cavity with thread (hole), the axis of symmetry of the cylinder and the cylindrical cavity (hole) are displaced relative to each other, the lens is screwed into the cylindrical cavity (about aperture), and the axis of symmetry of the lens corresponds to the optical axis of the device and the sensor receiving the image from the lens.

The proposed device is presented in figure 2, where 1 is a prism with a fingerprint surface 6 and an output surface 7 and a matte surface 14, 15 is a flat-convex lens, 2 is a light source, which is a matrix of LEDs, the light of which is scattered by the film 16, 11 - a lens consisting of several lenses with brightened optics, 12 - a means of moving the lens, 13 - a sensor, 10 - an optical axis.

A means for moving the lens 12 is shown in FIG. 2, where the means in the form of a cylinder has an internal cylindrical cavity with a thread (hole). The axis of symmetry of the cylinder and the cylindrical cavity (hole) are offset relative to each other. The lens is screwed into a cylindrical cavity (hole). When the cylinder rotates, the cylinder rotates with the lens, and since the axis of symmetry of the cylinder relative to the optical axis of the device does not shift, the lens shifts relative to the optical axis of the device.

When you turn the tool with the lens, the fingerprint image is shifted relative to the sensor in two coordinates, which makes it possible to obtain a symmetric image on the sensor.

Figure 3 shows the position of the finger on the plane 6 of prism 1, where 20 is the contact point of the protrusion on the finger (papillary), 17 is the depression on the finger, 18 is the light rays from the light source 2, the surface of the finger 19, 21 is the light reflected under different angles.

The device operates as follows.

The scattered light 18 (see FIG. 3) from the matrix of LEDs 2 enters the plane 6 of prism 1. In this case, the light incident on the papillary 20 is reflected at different angles 21 (as shown in FIG. 3), and part of the light reflected under a certain angle, falls into the lens of the device and then to the sensor.

The light entering the cavity 17 (between the papillaries) passes through the surface of the prism and, scattering, does not enter the lens and sensor.

As a result, an image of a finger papillary pattern is formed on the sensor, identified as a fingerprint.

Increasing the resolution of the device to a value of not less than 600 dpi is ensured by the following factors:

1. achieving uniform illumination of the fingerprint plane 6, which is achieved by using a matrix of LEDs, scattering film 16 and the matte surface 14 of the prism,

2. maximum use (collection) of the light flux reflected from the surface 6, using a plano-convex lens combined with the output plane of the prism 7, and a lens consisting of several lenses with brightened optics,

3. saving all information about the fingerprint by obtaining a symmetric image on the sensor provided by the means of moving the lens.

The reduction in the cost of the device is ensured by the fact that in the proposed device, the alignment is performed in one plane, while in the prototype in two planes.

The high quality of the obtained image of the fingerprint is shown in figure 4.

Literature

1. US patent No. 5210588.

2. US Patent No. 5233404.

3. US Patent No. 6463166.

Claims (1)

A fingerprint device, comprising a prism, one of the surfaces of which in one direction serves for fingerprinting, a light source from which, passing through the prism, illuminates the surface of the fingerprint prism, characterized in that the device includes a flat-convex lens combined with the output surface of the prism, the prism being used with a lower matte surface, and the light source, consisting of a matrix of LEDs, is coated with a light-scattering film, a lens consisting of and several lenses with antireflected optics, means for moving the lens in the form of a cylinder having an internal cylindrical cavity with a thread (hole), the axis of symmetry of the cylinder and the cylindrical cavity (hole) are displaced relative to each other, the lens is screwed into the cylindrical cavity (hole), and the axis of symmetry of the lens corresponds to the optical axis of the device, and a sensor receiving an image from the lens.

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