RU2536114C1 - Method for evaluating time of individual's response to moving object - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: person being tested is presented with a circle, which comprises a mark and a point object, on a monitor screen. The point object moves at a preset speed around the circumference; at the moment the moving point object and the mark are supposed to converge, the individual presses the Stop button to stop the circular motion of the moving point object. After a preset time, the motion of the point object is reactivated. The described procedure is repeated for the preset number of times; after stopping the circular motion of the point object, a deflection of the point object from the mark is evaluated. The time of the individual's response T_r to the moving object is evaluated as an arithmetic mean value by formula

wherein t_i is the i-th deflection of the point object from the mark, ms; n is the number of stops of the point object in the area of the mark.

EFFECT: method enables providing the more reliable evaluation of the time of the individual's response to the moving object ensured by the fact that the time of delay or advance error is accepted as deflections of the stopped moving object from the mark and taken with a positive sign.

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Description

The invention relates to medicine and is intended to estimate the time a person reacts to a moving object.

One of the methods for increasing the reliability and effectiveness of a person’s professional activity is the diagnosis and prediction of his functional state. A simple and fairly accurate psychophysiological indicator of a functional state is the reaction time to a moving object [1].

There is a method of estimating the reaction time of a person to a moving object by presenting to the subject on the video monitor a circle on which a mark and a point object are placed, characterized in that the point object moves at a given speed around the circle, at the moment the position of the moving point object with the mark coincides, the test subject is pressed the Stop button stops the movement of a point object in a circle, then the error of the mismatch between the point object and the mark is calculated — the time of the delay error from the position tion mark or pre-emption with a negative sign, and after the predetermined time point object motion resumes circumferentially described procedure is repeated a predetermined number of times, and then calculating the reaction time evaluation of human T _p to a moving object as the 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 [2].

The disadvantage of this method is not a reliable estimate of the reaction time to a moving object.

Closest to the technical nature of the proposed method is a method for estimating the reaction time of a person to a moving object by presenting to the subject on the screen of the video monitor a circle on which a mark and a point object are placed, characterized in that the point object moves with a given speed around the circle at the time of the expected coincidence the position of a moving point object with a mark, the test subject, by pressing the Stop button, stops the movement of the point object in a circle, then the mismatch error is calculated eniya point object and the mark - 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, and then calculating a time estimate response T _p person on the moving object 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 position of the label [3].

The disadvantage of this method is not a reliable estimate of the reaction time to a moving object.

Evaluation of the reaction time to a moving object, calculated as the sum of delays with a positive sign and lead with a negative sign or as the arithmetic mean of these errors, does not allow to evaluate it reliably. When testing the response time to a moving object of two test subjects, the following error values were obtained for the discrepancy between the position of the point object and the mark:

- for the first subject +10, -10, +10, -10, +10, -10, +10, -10, +10, -10 ms, shown in figure 1;

- for the second subject +5, -5, +5, -5, +5, -5, +5, -5, +5, -5 ms, presented in figure 2.

The sum of the errors of delay with a positive sign and the lead with a negative sign and the arithmetic mean values of these errors of both subjects coincide and are equal to zero. But the fact that the sum of errors and their arithmetic mean value is zero does not indicate any value of the reaction time to a moving object. At the same time, the values of errors of non-coincidence of the position of the point object and the mark of the second test subject are less than the first, therefore, its reaction time to a moving object is less.

The technical result of the proposed method for assessing the response time of a person to a moving object is to increase the reliability of the assessment.

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 a 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 the mark, the test subject stops the movement of the point object by pressing the Stop button around the circle, after a specified time, the movement of a point object is resumed, the described procedure is repeated a specified number of times, and the new thing is that after the stop ova movement point object along the circumference is calculated from the deviation point object tags, reaction time evaluation of human T _p on the moving object is calculated as the arithmetic mean of the formula

where t _i - ie the value of the deviation of the point object from the label, ms; n is the number of stops of a point object in the region of the mark position.

Figure 1-2 presents a diagram of the values of the errors of delay and lead of two subjects.

Figure 3 presents the circle presented to the 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.

Figure 4-5 presents a diagram of the values of the errors of delay and lead of two subjects.

The proposed method for assessing the response time of a person to a moving object is as follows.

On the screen of the video monitor, the test subject is presented with a circle on which a mark 1 and a point object 2 are placed, moving at a given speed around the circumference (Fig. 3). The subject, observing the movement of the point object 2, at the time of the supposed coincidence of the position of the moving point object 2 with the mark 1 by pressing the Stop button, stops the movement of the point object 2 in a circle. Then, the deviation of the point object 2 from the mark 1 is calculated, and after a specified time, the movement of the point object 2 around the circle is resumed.

The subject performs the described procedure a predetermined number of times, after which the response time T _{p of a} person to a moving object is calculated by the formula (2).

Thus, the claimed method of estimating the time of a person’s reaction to a moving object has new properties that determine the receipt of a positive effect.

Example 1

Subject P., 19 years old, was shown on the screen of a video monitor of a personal computer a circle on which mark 1 is placed, a point object 2 moves clockwise around a circle at a given speed, making one revolution in 2 s (Fig. 3).

The subject, observing the movement of the point object 2 around the circle, at the time of the supposed coincidence of the position of the point object 2 with the position of the mark 1, pressed the computer key "Space", which serves as the "Stop" button. The computer at the moment of pressing the Space key stopped the movement of point object 2 in a circle, calculated the error of non-coincidence of point object 2 and mark 1 - the time of delay error with a positive sign or lead with a negative sign, determined the deviation of point object 2 from mark 1, entered the calculated the value of the error of mismatch and deviation to the storage device and after 1 s continued the movement of the point object 2 around the circle.

The subject, in accordance with the recommendations of [4], performed 13 stops of the movement of a point object 2 in the region of the position of the mark 1, the first three of which were not taken into account when estimating the reaction time to a moving object. As a result of testing, the following error values were obtained for the mismatch between point object 2 and label 1 in ms: 14, -6, 25, -14, 8, 30, 14, -16, 14, -13, which are presented in Fig. 4, and the values deviations of point object 2 from mark 1 in ms: 14, 6, 25, 14, 8, 30, 14, 16, 14, 13.

Estimation of the reaction time of a person to a moving object, calculated by the formula (1), is equal to 5.6 ms, by the formula (2) - 15.4 ms. The obtained estimates of the reaction time differ by 2.75 times.

Example 2

Subject E., 20 years old, similar to Subject P., performed a test to evaluate the reaction time to a moving object. As a result of testing, the following error values of the mismatch of the position of the point object and the label in ms were obtained: -22, 6, -27, 19, -28, 11, -23, 22, -26, 17, which are presented in Fig. 5, and the values deviations of point object 2 from mark 1 in ms: 22, 6, 27, 19, 28, 11, 23, 22, 26, 17.

Estimation of the reaction time of a person to a moving object, calculated by the formula (1), is minus 5.1 ms, by the formula (2) - 20.1 ms. The obtained values of the reaction time estimates differ 3.94 times.

The positive effect of the proposed method for assessing the response time of a person to a moving object is confirmed by the results of an experimental study in a group of 10 subjects. The values of the reaction time estimates calculated by formulas (1) and (2) differ from the examined group from 1.9 to 5.3 times.

Thus, the proposed method allows you to more reliably estimate the reaction time of a person to a moving object.

Information sources

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. Patent 2369326 of the Russian Federation, IPC A61B 5/16. A method for estimating the time of a person’s reaction to a moving object / I. Petukhov - No. 2369326/14; declared 04/18/2008; publ. 10/10/2009.

3. RF patent 2326595, IPC A61B 5/16. A method for assessing the time of human reaction to a moving object / Pesoshin A.V., Petukhov I.V., Rozhentsov V.V. - No. 2326595/14; declared 06/04/2007; publ. 06/20/2008.

4. 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; under the editorship of V.M. Shadrina. - Kazan: Publishing house Kazan. University, 1976 .-- 238 p.

Claims (1)

A method of estimating the time of a person’s reaction to a moving object, which consists in the fact that the test subject is presented with a circle on the screen of the video monitor on which the mark and 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 with the mark coincides, the test subject is pressed the Stop button stops the movement of a point object in a circle, after a specified time, the movement of a point object resumes, the described procedure is repeated with a specified number of h, characterized in that after stopping the movement of a point object around the circle, the deviation of the point object from the mark is calculated, the estimate of the reaction time T _{p of a} person to a moving object is calculated as the arithmetic mean value according to the formula:

,
where t _i - ie the value of the deviation of the point object from the label, ms; n is the number of stops of a point object in the region of the mark position.

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