RU2381742C1 - Method for detection of ability to anticipate course of events - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: circle with a mark and a point object is presented on the screen. The point object circles at preset speed, the preset time before the mark appears, and it disappears from the screen, while the circling of the point object proceeds. The moment the point object is supposed to match with the mark, the person under the test press button "Stop" to stop the circling of the point object, and the point object appears on the screen again in that place where circling has been stopped. Then a mismatch error of the point object and mark is calculated representing time of delay error with a positive sign or advance error with a negative sign, and in preset time he circling of the point object is recommenced. The described procedure is performed for preset times to calculate ability to anticipate the circling object position relative to the mark T_ant as an arithmetic-mean value by formula:

where t_i is an i-th delay error with a positive sign or advance error with a negative sign, ms; n - number of stops of the point object within the mark position.

EFFECT: method allows detecting ability to anticipate the circling object position relative to the mark.

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Description

The invention relates to medicine and is intended to determine the ability to anticipate the course of events.

One of the methods to increase the reliability and effectiveness of a person’s professional activity is to diagnose his functional state and the functioning of his nervous system.

Anticipating the course of events is an important and necessary condition for the activity of a human operator and is determined by the individual characteristics of his nervous system.

A simple and fairly accurate psychophysiological indicator of a functional state is the reaction time to a moving object (RDO) [1]. At the same time, the reaction to a moving object is used as a test to determine the level of relationship between the processes of excitation and inhibition in the cerebral cortex, as well as the ability to self-regulation and predicting the course of events [2], which necessitates its accurate assessment.

A known method of determining the ability to anticipate the course of events by measuring RDD, according to which the subjects are presented with a dial of a conventional arrow stopwatch, one division of which is 0.01 s. Subjects using the “Can” command press the button to start the stopwatch and stop it when the arrow reaches the specified division on the dial. 13 measurements are taken, three of which are considered indicative and are not taken into account when estimating the reaction time to a moving object. The indicator of the reaction to a moving object is the average value of delay errors and the average value of lead errors. To estimate the average value of the delay errors, the sum of deviations with a positive sign and the number of errors of this kind are calculated. Dividing the total value of errors by their number gives the desired value. Similarly, a criterion is calculated that characterizes the average value of lead errors. A comparison of the calculated average values gives an idea of the predominance of the average value of the delay or lead errors, that is, the reaction to a moving object [3], which characterizes the ability to predict the course of events.

There is a method of determining the ability to anticipate the course of events by measuring RDO, during which the test subject is presented with a circle on the screen of the video monitor, on which the cursor and the label denoting "Stop" are placed. To ensure the cursor moves around the circle, the test subject holds the control panel button with the probe pressed. At the moment of the supposed coincidence of the cursor with the mark, the subject presses out the remote control button with the probe. By the number of leading, lagging and accurate reactions, one judges the correlation of the processes of inhibition and excitation in the central nervous system, that is, the time of a person’s reaction to a moving object [4], which is an assessment of the ability to predict the course of events.

The closest in technical essence is the method of estimating the reaction time of a person to a moving object by presenting to the subject on the video monitor screen a circle on which a mark and a point object are placed, according to which a point object moves with a given speed around the circle at the moment the position of the moving point object coincides with with a label, the test subject stops the movement of a point object in a circle by pressing the Stop button, then the error of mismatch between the point object and ki - delay error time with a positive sign or feedforward with a negative sign, and after the predetermined time resuming movement of a point object on the circle described procedure is repeated a predetermined number of times, after which the calculated time estimation reaction _Tp person on the moving object as the arithmetic mean value of the formula:

where t _i - i-th error of delay with a positive sign or lead with a negative sign, ms; n is the number of stops of a point object in the region of the position of the label [5].

Assessing the reaction time T _{p of a} person to a moving object characterizes his ability to foresee the course of events.

A disadvantage of the known methods is the inaccurate determination of the ability to foresee the course of events, since in the known methods the position of a moving point object relative to the mark is known at any time. Foreseeing the course of events implies predicting the position of a moving point object relative to the mark in the absence of information about its current position.

The technical result of the proposed method for determining the ability to predict the course of events is to increase reliability by eliminating current information about the position of a moving point object relative to the mark.

The technical result is achieved by the fact that the test subject is presented on the screen of the video monitor with a circle on which the mark and the point object are placed, the point object moves with a given speed around the circle, at the moment the position of the moving point object coincides with the mark, the test subject stops the movement of the point object by pressing the Stop button around the circumference, then calculate the error of mismatch of the point object and the label - the time of the delay error with a positive sign or lead with a negative sign, after a specified time, the movement of a point object in a circle is resumed, the described procedure is repeated a predetermined number of times, and it is new that a moving point object in a circle for a specified time disappears from the video monitor screen until the mark is reached, while the movement of a point object in a circle continues, when pressed the Stop button, the point object appears again on the screen of the video monitor, in the place where its movement was stopped, the ability to anticipate the course of events is calculated as the arithmetic mean value according to the formula:

where t _i - i-th error of delay with a positive sign or lead with a negative sign, ms; n is the number of stops of a point object in the region of the mark position.

The drawing shows the circle presented to the test subject on the screen of the video monitor, where 1 is the mark, 2 is the point object moving at a given speed around the circle, 3 is the place where point 2 disappears from the screen of the video monitor.

The proposed method for determining the ability to predict the course of events is as follows.

On the screen of the video monitor, the test subject is presented with a circle on which a mark and a point object moving around the circle are placed.

A point object moving around a circle disappears from the screen of a video monitor in a given time. The subject, observing the movement of a point object until it disappears, at the moment of the supposed coincidence of the position of the moving point object with the mark by pressing the Stop button, stops the movement of the point object in a circle, which after pressing the Stop button again appears on the monitor screen, in that place where his movement was stopped.

Then, the error of the discrepancy between the point object and the label is calculated — the time of the error of delay or lead, and after a specified time, the movement of the point object around the circle is resumed. The subject performs the described procedure a predetermined number of times, after which the estimate of the ability to predict the course of events T _{before is} calculated by the formula (1).

Thus, the claimed method of determining the ability to anticipate the course of events has new properties that determine the receipt of a positive effect.

Example 1

Subject A., 20 years old, was shown on the screen of a video monitor of a personal computer compatible with IBM PC with a circle on which a mark and a point object were placed. A point object moved clockwise around a circle at a given speed, and for a specified time 2 seconds before reaching the mark, it disappeared from the video monitor screen, while the movement of a point object around a circle continued. The subject, observing the movement of a point object around the circumference, at the time of the supposed coincidence of the position of the point object with the position of the mark, pressed the computer keyboard key "Space", which performs the function of the Stop button. The computer at the moment of pressing the Space key stopped the movement of a point object in a circle, displayed the position of a point object on the screen of the video monitor, at the place where its movement was stopped, calculated the error of the mismatch of the position of the point object and the mark - time of delay error with a positive sign or lead with a negative sign, entered the value of the error time with the corresponding sign in the storage device and after 1 s continued to move the point object around the circle.

The subject, in accordance with the recommendations of [3], performed 13 stops of the motion of a point object in the region of the position of the mark, the first three of which were not taken into account when assessing the ability to foresee the course of events. As a result of testing, the following error values were obtained that did not match the position of the point object and the label: 65; 34; 63; -41; -twenty; four; 32; -51; 29; 73 ms

The assessment of the ability to anticipate the course of events, calculated by the formula (1), is equal to 18.8 ms, which indicates a delayed response of the subject and the predominance of inhibition processes over the processes of excitation in the nervous system of subject A.

Example 2

Subject B., 20 years old, similar to subject A., performed a test to assess the ability to foresee the course of events. As a result of testing, the following error values of the mismatch of the position of the point object and the label were obtained: -45; -fifty; -68; -four; 49; -twenty; 83; 62; -34; -80 ms

The assessment of the ability to anticipate the course of events, calculated by formula (1), is -10.7 ms, which indicates a premature response and the predominance of excitation processes over inhibition processes in the nervous system of test B.

Moreover, the ability to foresee the course of events of test B. is higher than that of test A., by 75.7%.

Thus, it was found that the proposed method for determining the ability to anticipate the course of events allows to increase the reliability of the method by eliminating current information about the position of a moving point object relative to the mark.

The positive effect of the proposed method for determining the ability to predict the course of events is confirmed by the results of an experimental study on a group of 10 subjects.

Thus, the proposed method for determining the ability to anticipate the course of events improves the reliability of the method by eliminating current information about the position of a moving point object relative to the mark.

Literature

1. Surnina O.E., Lebedeva E.V. Sex and age differences in reaction time to a moving object in children and adults // Human Physiology. - 2001. - T. 27, No. 4. - S. 56-60.

2. Karaulova N.I. Possibilities of using the reaction to a moving object in assessing the results of training // Human Physiology. - 1982. - T. 8, No. 4. - S.653-660.

3. Methods and portable equipment for the study of individual psychological differences of a person / N.M. Peysakhov, A. P. Kashin, G. G. Baranov, R. G. Vagapov; Ed. V.M.Shadrina. - Kazan: Publishing house Kazan. un-that. - 1976. - 238 p.

4. Maslova OI, Goryunova A.V., Guryeva M.B. et al. The use of test computer systems in the diagnosis of cognitive impairment in attention deficit hyperactivity disorder in school children // Medical Technology. - 2005. - No. 1. - S.7-13.

5. RF patent No. 2326595. A method for assessing the time of human reaction to a moving object / Pesoshin A.V., Petukhov I.V., Rozhentsov V.V. BI 17. - 17 p.

Claims (1)

A method for determining the ability to predict the position of a moving object relative to the mark in the absence of information about the current position by presenting to the subject on the screen of the video monitor a circle on which the mark and the point object are placed, the point object moves at a given speed around the circle at the moment the position of the moving point object coincides with with a label, the test subject stops the movement of a point object in a circle by pressing the Stop button, then the point mismatch error is calculated object and mark — the time of delay error with a positive sign or lead with a negative sign, and after a specified time, the movement of a point object in a circle is resumed, the described procedure is repeated a predetermined number of times, characterized in that a point object moving around a circle for a given time until the mark is reached disappears from the screen of the video monitor, while the movement of the point object in a circle continues, when you click the Stop button, the point object appears again on the screen of the video monitor, in the place where o its motion is stopped, the ability to predict the position of a moving object relative to the mark is calculated as the arithmetic mean value by the formula:

where t _i - i-th error of delay with a positive sign or lead with a negative sign, ms; n is the number of stops of a point object in the region of the mark position.

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