RU2407435C1 - Method of identification of personality by iris (its versions) - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: group of inventions relates to medicine and can be used in identification of personality by iris. For this purpose colour image of iris (I) is registered. After that image is processed with formation of identification code, whose elements are determined in accordance with wavelength of reflected light irradiation from each I element. It is also suggested that I images should be registered in several spectrum ranges with their further processing in the same several different spectrum ramges with formation of identification code. Fact of personality identification in both cases is established by coincidence of identification codes. ^ EFFECT: inventions allow to increase accuracy and rate of personality identification. ^ 10 cl, 10 ex

Description

The invention relates to techniques for protecting various objects from access by unauthorized persons by identifying a person by the image of her iris (HORN) and can be used to diagnose the state of organs and functional systems of the body by HORN.

A known method of identifying a person by the image of her iris, which provides for the registration of HORN images of people and the formation on their basis of a database, which is then used to identify the person. Each image before being placed in the database is processed in a computer using special software and stored as a specific data set. To carry out the process of identifying a person, an image of her HORN is recorded, the captured image is processed and compared with those stored in the database (WO 03/049010 [1]).

A disadvantage of the known method of identifying a person is its relatively low accuracy, since a single set of characteristic features is used to identify a person, i.e. one code.

A known method of identifying a person by the image of her iris, which provides for the registration of HORN images of people and the formation on their basis of a database, which is then used to identify the person. At the same time, in the process of registering an Horn image, the eye is illuminated by optical radiation in a narrow spectral range. Semiconductor radiation sources are used as a source of such illumination. Each image before being placed in the database is processed in a computer using special software and stored as a specific code. To carry out the process of identifying a person, an image of her HORN is recorded, the captured image is processed and compared with those stored in the database (JP 10137220 [2]).

A disadvantage of the known method of identifying a person is its relatively low accuracy, since a single set of characteristic features is used to identify a person, i.e. one code.

A known method of identifying a person’s personality by its Horn, which consists in the following. It was found that the use of backlighting in the same spectral range due to differences in the color of the HOG pigment in some cases does not allow us to accurately determine the boundary between the protein and the iris, and in addition, some of the characteristic features of the HOG are not detected due to poor contrast when using backlight whose wavelength is close to the color of these elements. Therefore, in the known method, the eyes of an identifiable person are first illuminated with light close to infrared, the color of the pigment of the Horn is detected, and depending on this, the wavelength of the optical radiation source used to illuminate the Horn is selected at the time of recording its image. As a result of image processing, a code corresponding to it is generated, which is stored in the database and used for comparison with the current code value generated by re-registering the HOR image of an identifiable person (JP 2006031185 [3]).

A disadvantage of the known method of identifying a person, despite the fact that the resulting codes carry information about a greater number of characteristic elements, is its relatively low accuracy, since a single set of characteristic features is used to identify a person, i.e. one code.

Closest to the claimed are methods of identifying a person by the iris of the eye (ROG), known from RU 2326589 [4]. One of the methods involves registering a color image of the HOG and its subsequent processing in several different spectral (color) ranges and the formation of an identification code for each of them, while the fact of identification is established by the coincidence of identification codes in all processed spectral ranges. The second method involves registering the HOG image in several spectral (color) ranges and its subsequent processing in the same several different spectral ranges and generating an identification code for each of them, while the fact of identification is established by the coincidence of identification codes in several or all spectral ranges .

A disadvantage of the known methods for identifying a person is that, despite the fact that the resulting codes carry information about a greater number of characteristic elements, they also carry redundant information, since they are obtained from one statistically independent space, which increases the total length of the code and, as a result, increases the search time in the database.

The inventive methods for identifying a person by the iris (HOR) are aimed at improving the accuracy and speed of identification.

This result is achieved by the fact that the method of identifying a person by the Horn includes registering a color image of the Horn and its subsequent processing with the formation of an identification code, the elements of which are determined in accordance with the wavelength of the reflected light radiation from each element of the Horn, while the fact of identity is established by the coincidence of codes.

The indicated result is also achieved by the fact that in the process of registering the HOGs are illuminated with optical radiation, the spectral range of which is close to white light.

The indicated result is also achieved by the fact that the illuminating radiation is concentrated in the focus region of the recording system.

The indicated result is also achieved by the fact that the illuminating radiation is concentrated on the resulting image as much as possible inside the pupil girdle.

The indicated result is also achieved by the fact that the illuminating radiation is modulated in intensity.

This result is achieved by the fact that the method of identifying a person by the Horn includes recording an Horn image in several spectral ranges and its subsequent processing in the same several different spectral ranges and generating an identification code for the calculated wavelength of the reflected light radiation from each Horn element, while the fact of identification identities are established by coincidence of identification codes.

The indicated result is also achieved by the fact that during the registration of the HOG in each of the spectral ranges it is highlighted with optical radiation, the spectral range of which corresponds to the spectral range of registration.

The indicated result is also achieved by the fact that the illuminating radiation is concentrated in the focus region of the recording system.

The indicated result is also achieved by the fact that the illuminating radiation is concentrated on the resulting image as much as possible inside the pupil girdle.

The indicated result is also achieved by the fact that the illuminating radiation is modulated in intensity in at least one of the spectral ranges.

The registration of the color image of the Horn and its subsequent processing with the formation of an identification code, the elements of which are determined in accordance with the long wavelength of reflected light from each element of the Horn, allows you to use the previously unused or incorrectly used color information component contained in the recorded image of the Horn.

The use of optical radiation illumination, the spectral range of which is close to white light, in the process of registering HOGs increases the accuracy of identification, since, on the one hand, it allows one to obtain a color image of Horns with virtually no distortion in the spectral characteristics of its elements, and, on the other hand, select a sufficiently large number of spectra (or spectral lines, or spectral ranges) in which this image can be processed.

It is most advisable to concentrate the illumination radiation in the focus area of the recording system, since in this case it will be most rational to use the backlight system with its energy consumption tending to a minimum. This also increases the accuracy of identification, since it can be used as a system of visual positioning of the HOG in the system registration area.

It is also possible to increase the accuracy of personal identification due to the fact that the highlighting radiation is concentrated on the received image as much as possible inside the pupil girdle, since this allows you to get a HOR image with minimal light interference artifacts on the useful area of the received HOR image.

In addition, if the illuminating radiation is modulated in intensity, it can be determined whether the identifiable person is using contact lenses and / or if the eye, the Horn image of which is subjected to analysis, does not belong to a living person, but to a fake or corpse.

The second proposed method of identifying a person, like the first one, allows to increase the accuracy of identification of a person and is based on a principle similar to him, namely, it provides for registering an HOR image in several spectral ranges and its subsequent processing in the same several different spectral ranges and the formation of an identification code for the calculated wavelength of the reflected light radiation from each element of the HOG, which allows the use of various types of combined illuminators and most accurate color correction.

If in the first method the formation of an identification code is carried out, the elements of which are determined in accordance with the long wavelength of reflected light from each element of the Horn, then in the second method, the identification code is generated from the calculated wavelength of the reflected light from each element of the Horn.

In order to further improve the accuracy of personal identification, it is advisable to illuminate it with optical radiation in each of the spectral ranges during the registration process, the spectral range of which corresponds to the spectral range of registration. In this case, an increase in accuracy is achieved by the specific spectral components identified by using the highlighting features that are characteristic of a different type of iris (hazel, gray or mixed type).

As in the first method, it is advisable to concentrate the illuminating radiation in the focus area of the recording system, since in this case it will be most rational to use the backlight system with its energy consumption tending to a minimum. It also increases the accuracy of identification, since it can be used as a system of visual positioning of the HOG in the system registration area.

If in the first method the entire flux of illuminating radiation is modulated in intensity, since it is the only one, then in this method, taking into account that several HOR images are recorded sequentially in different spectral ranges and the illumination is performed by optical radiation of different ranges, it is possible to modulate the radiation of only one spectral range or it is possible to modulate a combination of several different emission ranges. The main thing is that the reaction of the pupil girdle to a modulated change in the intensity of radiation from the backlight of the iris is most maximum and effective.

The essence of the proposed methods is illustrated by examples of their implementation.

Example 1. In the most general case, the first method described in claim 1 of the claims is carried out as follows. The identifiable person is placed in the field of view of the registration tools, allowing to obtain a high-quality color image of the Horn. As such a means, a color television video camera with a digital output can be used or a digital camera that allows you to take pictures at small intervals of about 0.001 s. The resulting image is converted to digital form and transmitted to a personal computer equipped with appropriate software (see WO 03/053123 [5]). In accordance with the image processing program, the computer generates a code from the registered color image, which is stored in the database as a reference. Subsequently, when there is a problem of identification of a person with the purpose of permitting his access or passage, for example, to a protected area, some storehouse, when crossing state borders, the procedure described above is repeated, except that the code obtained from this identification is compared with those already stored in the database, and if the codes of the identified identity match, access or passage is allowed.

Example 2. In the particular case of the first method can be carried out as follows. The identifiable person is placed in the field of view of the registration tools, allowing to obtain a high-quality color image of the Horn. As such a means, a color television video camera with a digital output can be used or a digital camera can be taken at small intervals of the order of 0.001 s, while it is illuminated by optical radiation in the process of registering an HRO image, the spectral range of which is close to white light. For this purpose, known radiation sources can be used, for example superbright LEDs of a certain emission range or other sources. Since it is optimal to illuminate in such a way that the radiation is concentrated, on the one hand, in the focus area of the recording system, and on the other hand, on the resulting image of the HRO maximally inside the pupil girdle, the backlight should be installed as close as possible to the area captured by the registration, but if possible not to fall into it. The resulting image is converted to digital form and transmitted to a personal computer equipped with appropriate software (see, for example, PrivatelD® from Iridian Technologies is an image processing protocol and data standard that enables a Proof Positive-certified iris camera to capture an image, process it and prepare it for transport in the most secure way possible. Iris recognition is the most accurate, non-invasive and easy to use biometric for secure identification. http://www.iridiantech.com/products.php?page=1 or [four]).

In accordance with the image processing program, the computer generates several monochrome images from the registered color image and highlights the features of each analyzed image. Based on the isolation and analysis of the HOG images, a code is generated that is stored in the database as a reference. Subsequently, when there is a problem of identification of a person with the purpose of permitting his access or passage, for example, to a protected area, some storehouse, when crossing state borders, the procedure described above is repeated, except that the code obtained from this identification It is compared with those already stored in the database, and with the identical codes of the identified person, access or passage is allowed.

Example 3. In another particular case, ensuring maximum achievement of the result, the first method can be implemented as follows. The identifiable person is placed in the field of view of the registration tools, allowing to obtain a high-quality color image of the Horn. As such a means, a color television video camera with a digital output can be used or a digital camera can be taken at small intervals of the order of 0.001 s, while it is illuminated by optical radiation in the process of registering an HRO image, the spectral range of which is close to white light. For this purpose, known radiation sources can be used, for example superbright LEDs of a certain luminance range or other sources. Since it is optimal to illuminate in such a way that the radiation is concentrated, on the one hand, in the focus area of the recording system, and on the other hand, on the resulting image as much as possible inside the pupil girdle, the backlight should be installed as close as possible to the region captured by the registration. The resulting image is converted to digital form and transmitted to a personal computer equipped with appropriate software (http://www.iridiantech.com/products.php?page=1).

In accordance with the image processing program, the computer generates a code from the registered color image, which is stored in the database as a reference. Subsequently, when there is a problem of identification of a person with the purpose of permitting his access or passage, for example, to a protected area, some storehouse, when crossing state borders, the procedure described above is repeated, except that the code obtained from this identification it is compared with those already stored in the database, and if the codes of the identified person coincide (with the necessary degree), access or passage can be allowed. But before giving such permission, you need to make sure that the image of the Horn is obtained from the eye of a living person, and not from his dummy. To do this, the illuminating radiation is modulated in intensity, and the image registration system monitors the pupil's response to modulation, for which the recording time is slightly increased.

Example 4. In one embodiment, the first method was carried out as follows. An identifiable person was placed in the field of view of a color television video camera (for example, Sanyo VCC-6592P) with an analog output, which, through the conversion unit, converts the signal to a digital output, which was connected to the input of a personal computer. In the process of registering the HOR image, it was illuminated with optical radiation with a spectral range close to white light. For this, the necessary light sources were used. The radiation sources were placed as close as possible to the region captured by the registration, so that they did not fall into it, and so that the radiation was concentrated, on the one hand, in the focus area of the recording system, and on the other hand, on the resulting image as much as possible inside the pupil girdle . The resulting image was converted by the conversion unit into digital form and transmitted to a personal computer equipped with software that allows you to process the received image.

By extracting the necessary spectra (in the space of the RGB image, it is possible to highlight the red, green and blue main color spectra, and it is also possible to extract additional color spectra using software from the main image, i.e. instead of one color image of an identifiable IDG, it is possible to obtain three basic monochrome images in red, green and blue color spectra and several additional monochrome images, for example, in yellow and blue color spectra x, which will most accurately characterize the color of the Horn and reveal the greatest number of individual features of this Horn in different color spectra). As a result of image processing, a computer from the registered color image formed three monochrome - red, blue and green images and highlighted the color characteristics of each analyzed image. Based on the isolation and analysis of the HOG images, a code was generated that was saved in the database as a reference. To verify the functioning of the method, the identifiable person was secondarily subjected to the above procedure. After completing the procedure, the resulting code was compared with that stored in the database. The result was a complete match codes.

Example 5. In one embodiment, the first method was carried out as follows. An identifiable person was placed in the field of view of a color television video camera (for example, Sanyo VCC-6592P) with an analog output, which, through the conversion unit, converts the signal to a digital output, which was connected to the input of a personal computer. In the process of registering the HOR image, it was illuminated with optical radiation with a spectral range close to white light. For this, the so-called sources of super-bright radiation were used (for example, Al171 v3). The radiation sources were placed as close as possible to the region captured by the registration, so that they did not fall into it, and so that the radiation was concentrated, on the one hand, in the focus area of the recording system, and on the other hand, on the resulting image as much as possible inside the pupil girdle . The resulting image was converted by the conversion unit into digital form and transferred to a personal computer equipped with software that allows the necessary spectral components involved in the identification to be extracted from the received information. As a result of processing the registered color image, the computer generated an identification code, the elements of which were determined in accordance with the long wavelength of the reflected light radiation from each element of the EGR. Further, the identification code was stored in the database as a reference. To verify the functioning of the method, the identifiable person was secondarily subjected to the above procedure. After completing the procedure, the resulting code was compared with that stored in the database. As a result, a complete match of the codes was obtained, which means that the identified person can be allowed access or passage, for example, to a protected area. But before giving such permission, you need to make sure that the image of the Horn is obtained from the eye of a living person, and not from his dummy. To check the effectiveness of the method, a color photograph of the HORN of an identifiable person was made. Since for this it is necessary to modulate the illuminating radiation in intensity, two experiments were carried out when, in one case, an identifiable personality was placed in the field of view, and in the other case, a dummy of his eyes. In the process of recording both images, both the eyes and the dummy were highlighted by intensity-modulated radiation with a variable frequency, which was selected from the conditions of the reaction of the pupil to a given frequency of exposure. In this case, it was ~ 20 Hz and was carried out over a time period of no more than 1 s. For this, the value of the supply current supplied to superbright LEDs was changed. The image continuously recorded by the television camera was transmitted to a computer, the image processing program of which allows recording the change in the diameter of the pupil. As a result, when the image of a living person was recorded, a signal confirming this fact was displayed on the computer monitor. When a dummy was placed in the field of view of a television camera, the computer revealed this fact and issued a prohibitory signal to enter the protected area.

Example 6. In the most general case, the second method described in claim 6 is as follows. The identifiable person is placed in the field of view of the registration tools, allowing to obtain a high-quality color image of the Horn. As such a means, a color television video camera with a digital output can be used or a digital camera that allows you to take pictures at small intervals of about 0.001 s. The eye of an identifiable person is placed in the field of view of the registration means and its HORN is sequentially recorded in a certain color - yellow, green, blue, etc. The resulting images, converted to digital form, are transmitted to a personal computer equipped with appropriate software. Based on the analysis of monochrome ROG images, a code is generated (the wavelength of the reflected light radiation of each ROG element is calculated by computer processing the totality of the obtained images), which is stored in the database as a reference. Subsequently, when there is a problem of identification of a person with the purpose of permitting his access or passage, for example, to a protected area, some storehouse, when crossing state borders, the procedure described above is repeated, except that the code obtained from this identification It is compared with those already stored in the database, and with the identical codes of the identified person, access or passage is allowed.

Example 7. In the particular case of the second method can be carried out as follows. The identifiable person is placed in the field of view of the registration tools, allowing to obtain a high-quality color image of the Horn. As such a means, a color television video camera with a digital output can be used or a digital camera that allows you to take pictures at small intervals of about 0.001 s. The means of recording the eyes of an identifiable person placed in the field of view are sequentially highlighted by optical radiation with different wavelengths that could correspond to certain colors - red, yellow, green, blue, etc. Accordingly, using the registration tool and a computer connected to it, several HOR images are recorded, each of which was highlighted at the time of registration with optical radiation of a certain color. The resulting images, converted to digital form, are transmitted to a personal computer equipped with appropriate software. Based on the analysis of monochrome ROG images (the formation of an identification code according to the calculated wavelength of reflected light from each element of the ROG by means of computer processing of the set of received images), a code is generated that is stored in the database as a reference. To illuminate the eye at the time of fixing its monochrome images, known radiation sources, for example various LEDs or radiation sources with appropriate filters, can be used. Since it is optimal to illuminate in such a way that the radiation is concentrated, on the one hand, in the focus area of the recording system, and on the other hand, on the resulting image as much as possible inside the pupil girdle, the backlight should be installed as close as possible to the region captured by the registration, but if possible, so that they do not fall into it.

Subsequently, when there is a problem of identification of a person with the purpose of permitting his access or passage, for example, to a protected area, some storehouse, when crossing state borders, the procedure described above is repeated, except that the code obtained from this identification It is compared with those already stored in the database, and with the identical codes of the identified person, access or passage is allowed.

Example 8. In another particular case, ensuring maximum achievement of the result, the second method can be implemented as follows. The identifiable person is placed in the field of view of the registration tools, allowing to obtain a high-quality color image of the Horn. As such a means, a color television video camera with a digital output can be used or a digital camera that allows you to take pictures at small intervals of about 0.001 s. The eye identification device of the identifiable person placed in the field of view is sequentially illuminated by optical radiation with different wavelengths that can correspond to certain colors - red, yellow, green, blue, etc. Accordingly, using the registration tool and a computer connected to it, several HORN images are recorded, each of which was highlighted at the time of registration by optical radiation of a certain color. The resulting images, converted to digital form, are transmitted to a personal computer equipped with appropriate software. Based on the analysis and calculation of the wavelength of the reflected light radiation from each element of the EGR, a code is generated that is stored in the database as a reference. To illuminate the eye at the time of fixing its monochrome images, known radiation sources, for example various LEDs or radiation sources with appropriate filters, can be used.

Since it is optimal to illuminate in such a way that the radiation is concentrated, on the one hand, in the focus area of the recording system, and on the other hand, on the resulting image as much as possible inside the pupil girdle, the backlight should be installed as close as possible to the region captured by the registration. Based on the selection and analysis of monochrome HOG images, codes for each of them are generated, which are stored in the database as reference codes. Subsequently, when there is a problem of identification of a person with the purpose of permitting his access or passage, for example, to a protected area, some storehouse, when crossing state borders, the procedure described above is repeated, except that the code obtained from this identification compared with those already stored in the database, and if the codes of the identified identity match, access or passage may be allowed. But before giving such permission, you need to make sure that the image of the Horn is obtained from the eye of a living person, and not from his dummy. For this, the illuminating radiation is modulated in intensity in at least one of the spectral ranges (color), and the image registration system monitors the pupil's response to modulation, for which the recording time is slightly increased.

Example 9. In one embodiment, the second method was carried out as follows. An identifiable person was placed in the field of view of a color television video camera with a digital output after signal conversion, which was connected to the input of a personal computer. The eye identification means of the identifiable person placed in the field of view was sequentially illuminated by optical radiation with different wavelengths that corresponded to specific colors - red, green, blue. Accordingly, with the help of the registration tool and the computer connected to it, these three HOR images were recorded, each of which was highlighted at the time of registration by optical radiation of the color in which the registration was carried out. To this end, radiation sources were used (super-bright LEDs for the red spectrum of the backlight - BSOL445-1HGB, for the blue spectrum - BB445-1F and for the green spectrum of the backlight - BGD1445-1L5). The radiation sources were placed around the circle as close as possible to the region captured by the registration, so that they did not fall into it, and so that the radiation of all the illumination sources was concentrated, on the one hand, in the focus area of the recording system, and on the other hand, on the received image maximally inside the pupil girdle. The resulting image was converted by the video camera itself into a digital form and transmitted to a personal computer equipped with software that allows the computer to analyze several received monochrome images and calculate the wavelength of the reflected light radiation from each element of the HORN.

As a result of processing three monochrome images - red, blue and green images of the HOG, a code was generated that was saved in the database as a reference. To verify the functioning of the method, the identifiable person was secondarily subjected to the above procedure. After completing the procedure, the resulting code was compared with those stored in the database. As a result, the necessary coincidence of codes was obtained, which means that an identified person can be allowed access or passage, for example, to a protected area.

But before giving such permission, you need to make sure that the image of the Horn is obtained from the eye of a living person, and not from his dummy. To check the effectiveness of the method, a color photograph of the HORN of an identifiable person was made. To test the reaction of the pupil, the illuminating radiation must be modulated in intensity. Two experiments were conducted when, in one case, an identifiable personality was placed in the field of view, and in the other case, a fake of his eyes. In the process of recording both images, both the eyes and the dummy were highlighted by intensity-modulated radiation of simultaneously blue and green. To do this, the value of the supply current supplied to the LEDs of the corresponding color was changed (for the blue spectrum - BB445-1F and for the green spectrum of the backlight - BGD1445-1L5). The image continuously recorded by the television camera was transferred to a computer, the image processing program of which allows recording the change in the diameter of the pupil. As a result, when the image of a living person was recorded, a signal confirming this fact was displayed on the computer monitor. When a dummy was placed in the field of view of a television camera, the computer revealed this fact and issued a prohibitory signal to enter the protected area.

Example 10. In another particular case, ensuring maximum achievement of the result, the second method can be implemented as follows. The identifiable person is placed in the field of view of the registration tool, which allows to obtain a high-quality color image of the Horn. As such a tool, a set of three video cameras with digital outputs can be used, equipped with light filters with different wavelengths that can correspond to specific colors - red, yellow, green, blue, etc. The means of recording the eyes of an identifiable person placed in the field of view are simultaneously highlighted by optical radiation with different wavelengths that can correspond to certain colors - red, yellow, green, blue, etc. respectively light filters. Using the registration tool and a computer connected to it, several HOR images are captured, each of which was highlighted at the time of registration with optical radiation of a certain color. The resulting images, converted into digital form, are transmitted to a personal computer equipped with appropriate software, while the elements of the HORN of one image are compared with the corresponding elements of the HOG of another image, as a result of which the spectral characteristics of the corresponding element of the Horn are recorded. Based on the analysis and calculation of the wavelength of the reflected light radiation from each element of the EGR, a code is generated that is stored in the database as a reference. To illuminate the eye at the time of fixing its monochrome images, known radiation sources, for example various LEDs or radiation sources with appropriate filters, can be used.

Since it is optimal to illuminate in such a way that the radiation is concentrated, on the one hand, in the focus area of the recording system, and on the other hand, on the resulting image as much as possible inside the pupil girdle, the backlight should be installed as close as possible to the region captured by the registration. Based on the selection and analysis of monochrome HOG images, codes for each of them are generated, which are stored in the database as reference codes. Subsequently, when there is a problem of identification of a person with the purpose of permitting his access or passage, for example, to a protected area, some storehouse, when crossing state borders, the procedure described above is repeated, except that the code obtained from this identification compared with those already stored in the database, and if the codes of the identified identity match, access or passage may be allowed. But before giving such permission, you need to make sure that the image of the Horn is obtained from the eye of a living person, and not from his dummy. To do this, the illuminating radiation, at least in one of the spectral ranges (color), is modulated in intensity, and the image registration system monitors the pupil's response to modulation, for which the recording time is slightly increased.

Claims (10)

1. The method of identifying a person by the iris (HOR), including registering a color image of the HOG and its subsequent processing with the formation of an identification code, the elements of which are determined in accordance with the wavelength of the reflected light radiation from each element of the HORN, while the fact of identification is established by match identification codes. 2. The method according to claim 1, characterized in that in the process of registering the HOGs are illuminated with optical radiation, the spectral range of which is close to white light. 3. The method according to claim 2, characterized in that the illuminating radiation is concentrated in the focus area of the recording system. 4. The method according to claim 2, characterized in that the illuminating radiation is concentrated on the resulting image as much as possible inside the pupil girdle. 5. The method according to claim 2, characterized in that the illuminating radiation is modulated in intensity. 6. A method of identifying a person by the iris of the eye (HOR), including registering the HOR image in several spectral ranges and its subsequent processing in the same several different spectral ranges with the formation of an identification code, the elements of which are determined in accordance with the wavelength of the reflected light radiation from each element HORN, while the fact of identification is established by the coincidence of identification codes. 7. The method according to claim 6, characterized in that during the registration of the HOG in each of the spectral ranges it is highlighted with optical radiation, the spectral range of which corresponds to the spectral range of registration. 8. The method according to claim 7, characterized in that the illuminating radiation is concentrated in the focus area of the recording system. 9. The method according to claim 7, characterized in that the illuminating radiation is concentrated on the resulting image as much as possible inside the pupil girdle. 10. The method according to claim 7, characterized in that the illuminating radiation, at least in one of the spectral ranges, is modulated in intensity.