KR200383808Y1 - Iris Image Acquisition Camera - Google Patents

Abstract

The present invention relates to an iris image acquisition camera, and more particularly, an iris image which is intended to acquire and use an image of an iris exactly as it is, in order to analyze and compare the iris pattern and the characteristics appearing according to the change of the iris in more detail. Relates to an acquisition camera.

The present invention implements a combination of a visible light photographing mechanism that targets the iris pattern and color, and an infrared photographing mechanism that targets the iris pattern, to selectively photograph the iris image. The iris changes in response to induced and changing pupils are acquired in multiple images to achieve more detailed and accurate iris analysis, and the combination of visible light and infrared imaging can be combined with a simple combination of durability and low cost. In order to provide an iris image acquisition camera that can be manufactured in the iris image, the pattern of the iris and the color change of the iris are analyzed in visible light, and the iris image (curved line, depression and protrusion, etc.) Devices for imaging (CCD, CMOS, etc.) and len In a camera having a lens, an image photographing element 60 is formed on a rear surface of a barrel 10 supporting a lens 20, and visible light is formed between the front surface of the lens 20 or between the lens 20 and the element 60. Assembling a filter that selectively transmits the optical path of any one of the lines and infrared rays, and blocks the other optical path, and attaches the infrared generator 50 and the visible light source 40 to one side of the front surface of the lens 20 Characterized in that it can be used selectively.

Description

Iris Image Acquisition Camera

The present invention relates to an iris image acquisition camera, and more particularly, an iris image which is intended to acquire and use an image of an iris exactly as it is, in order to analyze and compare the iris pattern and the characteristics appearing according to the change of the iris in more detail. Relates to an acquisition camera.

In general, the iris is recognized as a useful diagnostic site for the treatment of diseases of the human body, and the diagnosis through the iris image is common.At the same time, the iris is a key for releasing the security device. Is also used.

In order to use the iris image as a diagnostic purpose, a iris image is mainly acquired by using a color image under visible light, and when used as a security purpose, an iris image is obtained by extracting an unchanged iris pattern under infrared light.

However, according to the conventional technology of obtaining an image of an iris by irradiating an iris image with only visible light or infrared light, there is a common point that the obtained iris pattern alone is insufficient in determining the accuracy of the analysis.

When looking at the utility model registration applications No. 1996-28359, 1996-39405, and the Utility Model Publication No. 1998-034649, which are somewhat different from the purpose of the present invention, they can be regarded as related technologies. It suggests how to shoot clearly.

In other words, in order to ensure the accuracy of the inspection of the eye of the subject with the naked eye, the invention was devised for the lighting device and its structure in order to secure a clearer and clearer image.How much of the eye is examined when the examiner examines the eye of the subject with the naked eye. It suggests whether it can be seen clearly, but since the iris image is taken under a single light, there is a problem that the iris change is not known at all, and it is proposed to pick up only the iris image by visible light, making it difficult to accurately analyze the iris. Doing.

As another prior art, an iris image acquisition camera for iris recognition (see Utility Model Registration No. 355279, Patent No. 373850, U.S. Patent No. 6,377,699, etc.) is proposed to use only infrared rays in acquiring iris images. By using only infrared illumination, it is possible to accurately extract the iris pattern, but there is a problem in that the iris color and the color change of the iris due to disease, drug accumulation, and pigmentation due to aging cannot be measured.

As a result, according to the related arts, since the iris image is obtained to acquire a single image only under visible light or infrared light, there is a problem that it is not possible to continuously check the iris change trend and to obtain an image for accurate analysis.

In order to solve the limitations of the prior arts, the iris pattern and the color change of the iris are analyzed in the visible light, and the iris pattern (curved depression and protrusion, etc.) is obtained in the iris image obtained by using infrared light. It is necessary to ensure the accuracy of iris pattern analysis by analyzing, and also to obtain iris analysis by comparing and analyzing iris pattern change trends by acquiring a large number of images while changing the pupil size of iris using multilevel illumination or strobe illumination. It is expected to improve the accuracy of.

In the case of extracting and analyzing a single iris image, static analysis is possible for a large number of body tissues connected to the iris, but dynamic analysis cannot be performed. By dynamically analyzing the static analysis presented in the iris science (book ①The Science and Practice of the Iridology-Bernard Jensen, ② ②Science and Procedure of Iris Science) Acquiring various iris images with a single camera to analyze the trends is specifically disclosed in the present invention to be described below.

The present invention devised to solve the problems of the prior art as described above has the following object.

The present invention provides an iris image acquisition camera configured to selectively capture an iris image by implementing a combination of a visible light photographing mechanism for photographing an iris pattern and color and an infrared photographing mechanism for photographing an iris pattern. It is.

The present invention is to provide an iris image acquisition camera made to induce a change in the size of the pupil and to obtain a more detailed and accurate iris analysis by acquiring a plurality of images of the iris change in response to the changing pupil.

The present invention provides a iris image acquisition camera that can be manufactured at a low cost by manufacturing a simple combination of a combination of visible light and infrared light.

The present invention made to achieve the above object is to analyze the iris pattern and color change in the iris image taken with visible light, and the iris pattern (curved line, depression and protrusion, etc.) in the iris image obtained by using infrared rays. In a camera having an image capturing element (CCD, CMOS, etc.) and a lens for analysis, an image capturing element 60 is formed on a rear surface of the barrel 10 supporting the lens 20 and the front surface of the lens 20 or Between the lens 20 and the element 60 is composed by assembling a filter that selectively transmits the optical path of any one of visible light and infrared light, and blocks the other optical path, the infrared generator on one side of the front surface of the lens 20 By attaching 50 and the visible light source 40, it can be used selectively.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the technical configuration of the present invention.

The present invention is a camera having an image capturing element (CCD, CMOS, etc.) and a lens inside the barrel for capturing an iris image as shown in Figs.

The visible light blocking infrared transmission filter 30 is configured to be manually or automatically positioned or separated in the optical path of the front or rear surface of the barrel 10 so that an infrared image and a visible light image are selectively selected in one imaging device 60. And the visible light source 40 and the infrared generator 50 capable of emitting multi-level lighting or strobe lighting on one side of the front surface of the barrel 10, and the multi-level lighting or strobe lighting controls brightness of illuminance. It is made to adjust by the controller (80).

On the other hand, the subject innovation may be modified as shown in Figures 3 to 4.

That is, the filter is divided into a visible light blocking and infrared transmission coating filter 30 and a visible light transmitting and infrared blocking filter 31, and the filter is manually or automatically cross-selected so that the front surface of the barrel 10 or By being positioned in the optical path on the back side, the infrared image and the visible light image are selectively incident on one imaging device 60.

This is composed of a plurality of filters to block different light beams independently, the filters 30, 31 may be located on the same axis or mutually off the same axis.

As reference numeral 70, the housing is shown.

Looking in more detail with respect to the action of the present invention constituting the configuration as described above are as follows.

In the case of iris photographing under visible light using the iris image acquisition camera of the present invention, the visible light blocking and the infrared transmission filter 30 are photographed with the optical path removed. The transmission filter 30 is photographed with the optical path positioned.

The inflow and removal of the filter into the optical path can be automatically inserted or removed by a manual or electric actuator, and the insertion and removal structure of the filter is such that it can be easily implemented by a known structure, and thus a detailed description thereof will be omitted. It will be possible to understand.

The visible light source 40 is provided as a multi-level lighting or strobe lighting in which the brightness is variably changed, whereby the pupil size is artificially changed in accordance with the brightness of the external light to induce a change in the iris pattern and a plurality of trends. By taking an iris image, an image is obtained to clearly see the change in the iris pattern.

In addition, according to a modified embodiment of the present invention, when the iris image under the visible light by acquiring a plurality of filters, the visible light blocking and infrared transmitting filters 30 are removed from the optical path, and the visible light transmitting and infrared blocking filters are removed. When the iris image is photographed while being switched to 31 and illuminated from the visible light source 40, an iris image having a general color state can be obtained.

Of course, in the case of taking an infrared image, the inverse infrared cut filter 31 is removed from the optical path and replaced with the visible light cut and infrared transmission filter 30 so that the filter 30 is positioned in the optical path and the infrared generator ( 50) and the visible light source 40 is irradiated at the same time to shoot the iris image at this time a plurality of iris images are taken.

Here too, the visible light source 40 is provided as a multi-level or strobe light with a variable brightness, whereby the pupil size is artificially changed in accordance with the brightness of the external light to induce a change in the iris pattern and change the number of changes. By taking an image of the iris, an image is obtained to clearly see the change in the iris pattern.

That is, in order to acquire an infrared image, the visible light blocking and infrared transmission filters 30 are positioned in an optical path, and the infrared generator 50 and the visible light source 40 are simultaneously irradiated and photographed. The infrared transmission filter 30 is removed from the path, the infrared cut filter 31 is positioned in the optical path, the infrared generator 50 is turned off, and only the visible light source 40 is photographed while being photographed.

By the above operation, the present invention is the color of the iris and the color of the entire iris, which is illuminated by visible light with the pattern of the iris (curved line, depression and protrusion, etc.) by the background color of the iris, drug use, pigmentation due to disease and aging, etc. Due to the mixing and contrast of the iris pattern, the iris pattern may not appear correctly. The iris pattern that is unclear due to the mixing and contrast of these colors is compensated for. In order to solve the inadequate problem, analysis of iris pattern and color change in iris image taken with visible light and analysis of iris pattern (curved line, depression and protrusion, etc.) in iris image acquired using infrared ray By doing so, the accuracy of iris pattern analysis can be determined.

      In addition, it is possible to improve the accuracy of the iris analysis by comparing and analyzing the change trend of the iris pattern by acquiring a plurality of changed images while changing the pupil size of the iris using multi-level illumination or strobe illumination. In the case of analyzing one iris image as in the related art, it is possible to analyze static analysis dynamically by improving the disadvantage that it is not possible to dynamically analyze many body tissues connected to the iris. Both iris characteristics in visible light and iris characteristics in infrared light are extracted and analyzed, and at the same time, it is possible to analyze the change of pupil and the change of iris pattern, thereby enabling more accurate iris analysis.

As described in detail above, the present invention is designed to obtain an infrared image and a visible light image simultaneously using a single camera, thereby reducing the manufacturing cost of the iris image acquisition camera for precisely analyzing the iris image. It has the effect of simplifying, and by acquiring a plurality of iris images taken by tracking the change of iris, it is possible to provide an image that can analyze and compare the iris automatically precisely. In the case of using, it is intended to have various practical effects such as enabling the construction of an automatic analysis system using a computer.

1 is a block diagram showing the basic configuration of the present invention.

2 is a block diagram of another embodiment of the invention of FIG.

3 is a block diagram showing a modified embodiment of the present invention.

4 is a block diagram of another embodiment of the invention of FIG.

*** Explanation of symbols for the main parts of the drawing ***

10: barrel 20: lens

30: visible light blocking and infrared transmission filter

31: visible light transmission and infrared cut filter

40: light source (multilevel lighting or strobe lighting)

50: infrared ray generator 60: image device (CCD or CMOS, etc.)

80: controller

Claims (5)

In a camera having an image capturing element (CCD, CMOS, etc.) and a lens inside the barrel for capturing an iris image, The visible light blocking infrared transmission filter 30 is configured to be manually or automatically positioned or separated in the optical path of the front or rear surface of the barrel 10 so that an infrared image and a visible light image are selectively selected in one imaging device 60. An iris image acquisition camera, characterized in that configured to be incident, and the visible light source 40 and the infrared generator 50 on one side of the front surface of the barrel (10). The method according to claim 1, wherein in the barrel (10) supporting the lens 20 selectively transmits the optical path of any one of visible light and infrared light between the front of the lens 20 or between the lens 20 and the device 60. And the other optical path is configured by configuring a plurality of filters (30, 31) for blocking. The method of claim 1, wherein the light source 40 is made of a multi-level lighting or strobe lighting is made to adjust by the controller 80 to adjust the brightness of the illumination, it is installed in a ring shape on one side of the front of the camera or the front of the lens 20 Iris image acquisition camera, characterized in that. The iris image acquisition camera according to claim 1 or 2, wherein the light source (40) artificially changes the pupil of the eye and acquires a plurality of iris images that change according to the pupil change. The iris image acquisition according to claim 1 or 2, wherein the filter is inserted or removed in an optical path manually or automatically so as to selectively acquire an iris image using visible light and an iris image using infrared light. camera.