SU980688A1 - Device for investigating critical frequency of flicker confluence - Google Patents

Description

(54) DEVICE FOR RESEARCH OF CRITICAL FREQUENCY OF MILL MERGERS

one

The invention relates to medical technology, namely to devices for psycho-physiological research, and can be used to determine the degree of fatigue of a person.

A device for studying the critical frequency of flicker fusion, which contains a pulse generator connected to HcfoHHHKOM light and a control panel, a processing unit and a display unit 1, is known.

However, the known device does not automatically calculate the difference in the fusion of critical frequencies for one and the other eye in real time and identify this difference with the degree of human fatigue, which limits its functionality.

The purpose of the invention is to automatically determine the difference in the critical frequencies of flicker for both eyes in the course of one study.

The goal is achieved by the fact that, in a device for studying a critical flicker frequency, containing a pulse generator connected to a light source and a control panel,

processing and display unit, the processing unit is made in the form of serially connected analog-digital converter, first register, first counter, second register, control unit, second counter, comparison unit and display unit, accumulator connected to the comparison unit and display unit, and unit synchronization, which is connected to the control panel, with the first and second registers, the first and second counters, the control unit, the comparison unit, the accumulator and the display unit, and the control panel is connected to logo-digital converter and control unit.

FIG. 1 shows a block diagram of a device for studying the critical frequency of flicker fusion; in fig. 2 is a block diagram of the control unit.

The device contains a light source 1, for example, an LED that acts on the retina of the test object 2, a pulse generator 3, the output of which is connected to the light source 1, a control panel 4 with a potentiometer, connected to the pulse generator 3, synchronization unit 5, the input and output of which connected to

remote control 4 controls, analog-to-digital Converter 6, the first and second inputs of which are connected to the remote control 4 controls. In addition, the device contains the first register 7 (reversible) and the first counter 8, the output of which through the first register 7 is connected to the output of the analog-digital converter 6, the information storage 9, the comparison unit 10, the second register 11 and the control unit 12, whose input through the second register 11 is connected to the output of the first counter 8, the second counter 13 (reversible) and the display unit 14. One input of the display unit 14 is connected to the first output of the information storage 9, the second input is connected to the second output of the information storage, and to the input of the comparison unit 10, the output of which is connected to the third input of the display 14. The output of control unit 12 is connected to a second counter 13, the output of which is connected to comparison unit 10. At the same time, the outputs of the synchronization unit 5 are connected to the inputs of the first and second registers 7 and 11, the first and second counters 8 and 13, to the storage device 9, the comparison unit 10, the display unit 14 and the control unit 12.

Synchronization unit 5, analog-digital converter 6, registers 7 and 11, counters 8 and 13, accumulator 9, comparison unit 10 and control unit 12 form a processing unit connected to the control panel.

The control unit 12 (FIG. 2) consists of the trigger 15 and the circuits 16-19 I. The first input of the circuit 17 And is connected to the control panel 4, and the second input is connected to the output of the synchronization unit 5 and to the second input of the circuit 18 And, the first the input of which is connected to the output of the second register 11. The output of the circuit 17 and is connected to "a single input of the trigger 15," the zero input of which is connected to the synchronization unit 5, while the "zero output of the trigger 15 is connected to the second input of the circuit 19 And, and a single output - with the first input of the circuit 16 I. The second input of this circuit is connected to the first input of the circuit we are 19 And and with the output of the circuit 18 I. The outputs of the circuits 16 and 19 And connected to the corresponding inputs of the second counter 13.

The device works as follows.

Before starting work, the subject puts on a binocular device, adapts for 5-10 minutes and on the remote control 4 controls turns on the power, at the same time activating which the synchronization unit 5 initializes the first and second registers 7 and 11, the first and second counters 8 and 13, the accumulator 9 information, unit 10 comparison and unit 12 controls. The subject sets the remote control switch to

A position, for example, "Left eye, moving the control potentiometer knob, changes the frequency of the generator 3 until the light flashes of the light source 1 and merges this moment.

Then, using the control panel, the subject fixes and enters the voltage drop value on the control potentiometer into the analog-to-digital converter 6, which converts the voltage value into a digital code and writes this code into the first register 7. The last information is scaled and also converted from parallel code in sequential and rewritten into the first counter 8. Similarly, 2 measurements are made, where n is the number of the power of 2. These measurements are recorded in the first counter 8 as the sum quiet izmereniy- Xj, where K 2.

Next, the value of the sum G Xi is written to the second register 11, where

shifting the information by n bits to the right, i.e. the calculation of the mathematical expectation of the critical flicker frequency for the left eye, is performed. From the second register 11, information arrives at the first input of the circuit 18 I, the second input of which is probed by clock pulses from the synchronization unit 5. From the output of circuit 18 And the signals arrive at the second and first inputs of circuits 16 and 19 I. Since the trigger 15 is set to the "zero state", the signal "1 appears at the first input of the circuit 16 AND, from output 1 the signals arrive at the entrance of the direct account of the second counter 13.

After that, the subject sets the switch to the “Right eye. At the same time, at the first input of the circuit 17, the “single potential” is set, the second input receives a strobe signal from the synchronization unit 5. As a result, the signal from the output of the circuit 17 will set the trigger 15 of the control unit 12 to the “single state, which, in turn, will set the“ single potential at the second input of the circuit 19 I. Determine the mathematical expectation of the flicker critical frequency for the right eye m (Bp is produced in the same way as for the left eye. The signals from the output of the second register 11 are fed to the first input of the circuit 18 AND, the second input of which is probed by the signals of the synchronization unit 5. From the output of the circuit 18 And the signals go to the first and second inputs of the circuits 19 and 16And accordingly. Since "a single potential from trigger 15 is installed at the second input of circuit 19 I, then from the output of the last one the signals arrive at the input of the reverse counting of the second counter 13. As a result, the second counter 13 has

Claims (2)

L ij -L- - -hhhpr After that, the information from the second counter 13 is fed to the first inputs of the comparison unit 10, to the second inputs of which and to the inputs of the display unit 14 information is received from the information storage device 9. As soon as the information from the second counter 13 corresponds to the information selected from the accumulator 9, the comparison unit 10 generates a signal “Equal to which the value Aij and the corresponding degree of fatigue are lit in the display unit 14. - century. It is practically enough to perform four measurements for each eye, i.e. 2. The device allows to expand its functionality by determining the difference in the critical frequencies of flicker for both eyes, also allows a more accurate, prompt and reliable assessment of the functional state of a person, in particular, vehicle drivers, which reduces the number of traffic accidents ten%. Apparatus of the Invention A device for examining a critical flicker frequency, comprising a pulse generator connected to a light source and a control panel, a processing unit and a display unit, characterized in that, in order to automatically determine the difference in flicker frequencies for both eyes in one research, in it the processing unit is made in the form of serially connected analog-digital converter, first register, first counter, second register, control unit. .one. .v ", and 11-. | lc / jj - rivipa, .ixci V HL / ca OlC-PPl, second counter, comparator and display unit, accumulator connected to the comparator unit and display unit, and synchronization unit, which is connected to the control panel, with the first and second registers , the first and second counters, the control unit, the comparison unit, the accumulator and the display unit, wherein the control panel is connected to the analog-digital converter and the control unit. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 673265, cl. A 61 B 3/00, 1979. d.2