RU40704U1 - AUTOMATED IRIDOLOGICAL DEVICE - Google Patents

Abstract

The utility model relates to medical equipment and can be used in diagnosing the state of organs and functional systems of the body, as well as identifying a person by the iris of the eye. The device increases the information content of diagnostic signs, extends the diagnostic capabilities, reduces its complexity, increases usability. The automated iridological device comprises a illuminator including a light source, a video camera, a video signal to digital code converter, a computer connected to a recognition unit and connected to a monitor and operating in automatic mode. Obtaining data from the iris of the eye allows you to accurately diagnose human diseases, and also, if necessary, to identify a person. The proposed arrangement of the device with the inclusion of a recognition unit associated with a computer and a monitor allows you to automatically monitor the data received, accumulate and process them, as well as display the results on the monitor in tabular / graphical or graphic form.

Description

The utility model relates to medical equipment and can be used in diagnosing the state of organs and functional systems of the body, as well as identifying a person by the iris of the eye.

A known method for determining the coordinates of pigmented lesions on the iris of the eye and a device for its implementation (No. 2008789, IPC A 61 B 3/00, publ. 1994.03.15), comprising a body, an eyepiece, a template with a coordinate grid, a focusing unit, two lenses, source and voltage regulator, optical radiation source.

The disadvantage of this device is the inability to obtain data of the iris in the automatic mode in order to receive dynamic changes occurring in the eye.

The closest in technical essence and the achieved result to the proposed device is an iridological device containing a lens, eyepieces, illuminator, including a light source, a video camera with a signal to digital code converter and a computer with a monitor, as well as a digital-to-analog converter, a two-channel amplifier and motors for moving a liquid prism by a signal from a computer (No. 2153279, IPC A 61 B 3/00 dated 1994.03.03, publ. 2000.07.27).

The disadvantage of this device is the low accuracy of the image of the iris, because the use of a liquid prism introduces an error into the image of the iris, while the image is obtained by mechanical movement of this prism. All this reduces the reliability of the results of iridology,

allows you to diagnose with a small number of measurements, which does not allow you to track the dynamics of changes in the body, accumulate and process statistical data in a continuous mode.

All this limits the functionality of the device as a whole.

The purpose of the utility model is to increase the information content of diagnostic signs, expand the functionality of diagnostics, reduce its complexity, and increase usability.

This goal is achieved using an automated iridological device containing a illuminator, including a light source, a video camera, a video signal to digital code converter, a computer connected to a recognition unit and connected to a monitor and operating in automatic mode.

Obtaining data from the iris of the eye allows you to accurately diagnose human diseases, and also, if necessary, to identify a person. The proposed arrangement of the device with the inclusion of a recognition unit associated with a computer and a monitor allows you to automatically monitor the received data, accumulate and process it, and also display the results on the monitor in tabular, graphical or graphic form.

Figure 1 shows a block diagram of the inventive device.

The automated iridological device comprises a illuminator 1, including a light source, a video camera 2, a signal converter into a digital code 3, a computer 4, a recognition unit 5 with a set of iridological grids with a picture of the projection zones of a person, from where information is displayed on a monitor 6, where you can track in dynamic mode

image of the iris or compare with previous readings.

The device operates as follows.

When illuminated with the light source of the iris, the image enters the video camera, where there is a "frame capture card" and is fixed. The signal from the video camera is converted by means of block 3 into digital form and fed to computer 4. After processing this digital signal according to a special program, the patient’s eye characteristics take place at the computer output. These signals go to recognition unit 5, where they are compared with iridiological signs when determining the projection zone of a specific organ, and then are displayed on monitor 6. Data is stored in the computer’s memory, where it can later be compared with data received after some time. Thus, statistical data can be accumulated and processed both for a specific organ and for the whole organism. Data transmission is possible through communication channels to the consumer directly, i.e. to individual means of communication, for example, mobile phones.

During diagnosis, the projection zone of a specific organ on the iris is determined and localized to clarify the observed iridological signs, and when establishing a personality, to compare certain areas of the iris.

To identify a person, an identification card is laid in the recognition unit, on which a person’s iridogram code is pre-recorded containing intermediate and final identification information, and the resulting information is calculated on the basis of the initial identifiable information and the intermediate identification information and compared with the final

identification information read from the identification card, on the basis of which they judge the authenticity of identification. The computer has software for processing this data.

Using the recognition unit of an automated iridological device with a stabilized image of the iris of the eye under examination will expand the capabilities of computer analysis programs and increase the reliability of iridology results. The operation of all components of the device in an automated mode will allow you to dynamically monitor unfavorable zones, and if necessary, compare and process the results for all areas of the iris and separately, as well as observe and track unfavorable areas over time.

A multifunctional system of analysis of the iris with the determination of the shape of its surface is laid in the computer, and an algorithm for digital image processing with corresponding processing schemes is laid in the recognition unit.

The obtained data can be displayed on a monitor in tabular, graphic or graphic form and observed continuously.

The utility model allows to increase the accuracy of measurements, the information content of diagnostic signs, expand the functionality of use, reduce its complexity, increase usability and reduce cost.

Claims (1)

An automated iridological device containing a illuminator including a light source, a video camera, a video signal to digital code converter, a computer with a monitor, characterized in that it further comprises a recognition unit associated with them and operating in automatic mode.