RU2195153C1 - Method for estimating resolving power of vision by light flashing frequency - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method suggests to treat patients by giving them light flashings at constantly altering frequency. A patient is given light flashings at preset initial frequency, for example, 15 Hz. Then the frequency of light flashings is constantly altered at about 0.5 Hz/sec rate by either increasing or decreasing it till patients could determine a subjective alteration of the frequency of light flashings and fix their final frequency that moment. The value of resolving power is determined to be an absolute difference between final and initial frequencies. EFFECT: higher efficiency. 2 dwg, 2 ex

Description

 The invention relates to medicine and is intended to determine the resolution of vision by the frequency of light flicker.

 The estimated minimum visibility of the change in the frequency of light flicker is known, which is 0.75 Hz [1], while the methods for determining the resolution of vision by the frequency of light flicker are not known.

 The proposed method for determining the resolution of vision by the frequency of light flickers is that the subject is presented with flickers of light with a given initial frequency, then the frequency of light flickers is continuously changed, increasing or decreasing it until the subject determines the subjective change in the frequency of light flickers and fixes in this the moment their final frequency, for the value of the resolution of vision in the frequency of light flickers take the absolute difference between the final and initial part totami.

 The proposed method for determining the resolution of vision by the frequency of light flicker is as follows.

 Determining the resolution can be made in the mode of increasing the frequency, as shown in figure 1, or in the mode of decreasing the frequency, as shown in figure 2.

The subject is presented with light flicker with a given initial frequency F _n equal to, for example, 15 Hz. Then, continuously, at a speed of the order of 0.5 Hz / s, the frequency of light flickering is changed, increasing or decreasing it until the subject determines the subjective change in the frequency of light flickering. At this moment, the subject fixes the final frequency of light flicker F _to . The value of the resolution of vision by the frequency of light flickers is determined as the absolute difference between the final and initial frequencies according to the formula
ΔF = | F _to -F _n |.
Thus, the inventive method for determining the resolution of vision by the frequency of light flicker has the properties that determine the receipt of a positive effect.

Example 1. Subject P., 20 years old, using a generator emitting light flicker with a continuously variable frequency, presented flicker with an initial frequency of F _n = 15 Hz. The direction of the change in the frequency of light flickering (increase or decrease) was set by the toggle switch with the positions “Increase frequency” and “Decrease frequency”. The frequency of light flickers was controlled by the test buttons “Change Frequency” and “Fix Frequency”. According to the signal from the “Change Frequency” button, the generator, depending on the position of the toggle switch, increased or decreased the initial frequency F _{n of} light flickers at a speed of the order of 0.5 Hz / s, by the signal from the “Frequency Fixation” button, it stopped the frequency change and saved the value at the output final frequency F _to light flicker. A signal with the frequency of the presented light flicker was fed through the LPT port to a personal computer, in which their period and frequency were calculated.

Using the toggle switch, the generator was set to the frequency increase mode. Then the test subject with a short press of the button "Change frequency" (figure 1, time T ₁ ) set the generator in a mode of continuously increasing frequency of the presented light flicker. The subject determined a subjective change in the frequency of flickering and pressed the button "Fixing the frequency" (Fig. 1, time point T ₂ ). In this case, the computer calculated and displayed on the monitor screen the final frequency of light flicker F _k = 17.6 Hz and the frequency change ΔF = | F _to -F _n | = 2.6 Hz, taken as the value of the resolution of vision by the frequency of light flicker.

 In accordance with the recommendations of physiologists, the subject performed a series of 10 measurements, as a result of which the following values were obtained for the resolution of vision by the frequency of light flicker in Hz: 2.6; 2.7; 2.4; 1.8; 2.4; 2.7; 3.0; 2.9; 3.1; 1.8. The arithmetic average of the measured values of the resolution of vision by the frequency of light flicker was 2.54 Hz, the standard deviation was 0.45 Hz, the confidence limits of the random component of the error of the measurement results with a confidence probability of 0.95, taking into account the student coefficient - 1.025 Hz.

 Example 2. Subject K., 23 years old, performed measurements to determine the resolution of vision by the frequency of light flickers in a mode of decreasing frequency.

Using a generator emitting light flickers with a continuously variable frequency, the subject was presented with flickers with an initial frequency F _n = 15 Hz. The generator toggle switch was set to the “Decrease frequency” position. Then the test subject with a short press of the button "Change frequency" (figure 2, time T ₁ ) set the generator in a continuously decreasing frequency of the presented light flicker. The subject determined a subjective change in the frequency of flickering and pressed the button "Fixing the frequency" (figure 2, time T ₂ ). In this case, the computer calculated and displayed on the monitor screen the final frequency of light flicker F _k = 12.3 Hz and the frequency change ΔF = | F _to -F _n | = 2.7 Hz, taken as the value of the resolution of vision in terms of the frequency of light flicker.

 Similarly to test P., test K. performed a series of 10 measurements, as a result of which the following values were obtained for the resolution of vision by the frequency of light flicker in Hz: 2.7; 3.1; 2.8; 2.6; 2.2; 2.1; 2.0; 1.9; 2.2; 2.4. The arithmetic average of the measured values of the resolution of vision by the frequency of light flickering was 2.4 Hz, the standard deviation was 0.39 Hz, the confidence limits of the random component of the error of the measurement results with a confidence level of 0.95 taking into account the student coefficient - 0.882 Hz.

 Thus, the proposed method allows to determine the resolution of vision by the frequency of light flicker.

Sourse of information
1. A.S. 665895 USSR, MKI A 61 V 5/16. A method for measuring the critical frequency of flicker fusion / G.N. Yagovkin, A.P. Ovchinnikov (USSR). - 2 p.

Claims (1)

 A method for determining the resolution of vision by the frequency of light flickers by presenting the subject with light flickers with a continuously variable frequency, which consists in the fact that the subject is presented with light flickers with a given initial frequency equal to, for example, 15 Hz, then the frequency of light flickers continuously with a speed of the order of 0, 5 Hz / s is changed, increasing or decreasing it, until the subject determines the subjective change in the frequency of light flicker and fixes at this moment their final frequency, for the values the resolution of the frequency of light flashes taking the absolute difference between the final and initial frequencies.

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