RU2400138C1 - Moving object response testing technique - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: restricting closed loop with a concentric test point object of identical configuration is presented on a video monitor. The test object is enlarged at preset speed to simulate its movement towards to a person being tested. At the moment of estimated conjunction of the dimensions of the restricting closed loop and the test object, the person being tested press "Stop" button to stop diametre increase of the test object. Then a mismatch error of the diametres of the test object and restricting loop is calculated that is a delay error time with a positive sign or an advance error time with a negative sign and in preset time, the restricting closed loop with the concentric test object of initial size and configuration is presented to the person being tested. Thereafter, moving object response time T_r is calculated as an arithmetical mean by formula:

where t_i is i-th delay error time with a positive sign or advance error time with a negative sign, ms; n - is a number of tests.

EFFECT: technique allows determining moving object response time.

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Description

The invention relates to medicine and is intended to determine the reaction time of a person to an object moving towards him.

One of the methods to increase the reliability and effectiveness of a person’s professional activity is to diagnose and predict his functional state. A simple and fairly accurate psychophysiological indicator of a functional state is the reaction time to a moving object [1]. Moreover, the reaction time to a moving object is a complex spatio-temporal reflex and is used as a test to determine the level of interrelation of the processes of excitation and inhibition in the cerebral cortex [2], which necessitates its accurate determination.

A known method of determining the reaction time of a person to a moving object, according to which the subjects are presented with a dial of a conventional arrow stopwatch, one division of which is 0.01 seconds. 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 approximate and are not taken into account when determining 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].

There is a known method of testing a person’s reaction to a moving object, during which a test subject is presented with a circle on the screen of a video monitor, on which the cursor and the mark indicating “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, they judge the ratio of the processes of inhibition and excitation in the central nervous system, that is, the reaction to a moving object [4].

The closest in technical essence is a method for estimating the time of a person’s reaction to a moving object by presenting to the subject on the screen of the video monitor a circle on which the mark and point object are placed; according to the known method, a point object moves at a given speed around the circle, at the moment of the supposed coincidence of the position of the moving point object with the mark, the test subject stops the movement of the point object around the circle by pressing the Stop button, then the error of the point object and mark mismatch is calculated — the time of the lag error with a positive sign or preemptions 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 layer once, after which 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 is the time of the i-th delay error with a positive sign or lead with a negative sign, ms; n is the number of tests [5].

A disadvantage of the known methods is their low technological capabilities, since they allow you to determine the reaction time to a moving object only in the plane parallel to the subject, in the x-y coordinates.

At the same time, from the analysis of literary sources it is known that the reaction time to a moving object is determined to test the reaction of vehicle drivers [6]. In this case, the definition of the reaction to an object moving towards the subject acquires the greatest importance.

The technical result of the proposed method for determining the reaction time of a person to an object moving towards him is to expand the technological capabilities of the method.

The technical result is achieved by the fact that the test subject is presented with a closed loop on the video monitor screen with the test object, at the time of the supposed merger of the closed circuit with the test object, the test subject stops the test object by pressing the Stop button, and the mismatch error is calculated - the time of delay error with a positive sign or lead - with a negative sign, the described procedure is repeated a specified number of times, after which the reaction time T _{p of a} person to a moving object is calculated as average ifmetic value according to the formula:

where t _i is the time of the i-th delay error with a positive sign or lead with a negative sign, ms; n is the number of tests; moreover, it is new that the subject is presented with a closed loop, which is a limiting one, concentrically inside which a test object of a similar configuration is located, while the test object is increased according to a given speed, simulating its movement towards the subject until the test object merges with the bounding loop; in this case, after pressing the “Stop” button, the subject is again presented with a closed loop, concentrically inside of which there is a test object of initial size and configuration.

The drawing shows the circle presented to the test subject on the screen of a video monitor, where 1 is a circle whose boundaries are a mark, 2 is an object that increases in diameter at a given speed.

It is known that the remoteness of an object is determined by a person by analyzing the angular dimensions of the object. The eye determines the remoteness of objects using special signs of depth: monocular (vision with one eye) and binocular (vision with two eyes). Monocular signs of depth work at large distances and evaluate the remoteness of an object by reducing its size. Binocular signs of depth are applicable at close distances (up to several meters) and allow you to estimate the distance to the object by converting the visual axes of two eyes to one point (convergence), differences in images given by the right and left eye. The most natural way to solve the problem of determining the distance to an object is by comparison, when a recognizable object is compared with its physical size, known from visual experience and thus its distance is determined quite accurately [7].

Then, increasing the angular dimensions of the object and comparing them with the constant size of the circle, you can simulate the situation when this object approaches the stationary (circle) and assess that it is closer to the subject.

The proposed method for determining the reaction time of a person to an object moving towards him is as follows.

The test subject is presented with a closed loop on the screen of the video monitor, which is limiting, for example, in the form of a circle, concentrically inside which a test object of a similar configuration, for example a circle, is located.

The test object is increased according to a given speed, simulating its movement towards the subject. At the moment of the supposed coincidence of the size of the bounding closed loop and the test object, the test subject stops the increase in the diameter of the test object by pressing the Stop button. Then, the error of the mismatch between the diameters of the test object and the limiting contour is calculated - the time of the delay error with a positive sign or lead-in - with a negative sign and the set time is again presented to the test subject with a closed loop, concentrically inside of which the test object of initial dimensions and configuration is located.

Then, the reaction time T _{p of a} person to an object moving towards him is calculated as the arithmetic mean value according to the formula:

where t _i is the time of the i-th delay error with a positive sign or lead with a negative sign, ms; n is the number of tests.

Thus, the inventive method for determining the reaction time of a person to an object moving towards him has new properties that determine a positive effect.

Example 1

Subject A., 19 years old, was presented with a closed loop, which is limiting, in the form of a circle on the screen of a video monitor of a personal computer compatible with IBM PC. Inside the closed loop, a test object of a similar configuration in the form of a circle was concentrically located. The test object increased in diameter according to a given speed, simulating its movement towards the subject.

The subject, observing the change in the size of the test object, at the time of the supposed coincidence of the size of the bounding closed loop and the test object by pressing the computer key Space, acting as the Stop button, stopped the increase in the diameter of the test object.

The computer at the time of pressing the Spacebar stopped the increase in the test object and calculated the error of the mismatch between the diameters of the test object and the limiting contour — the time of the delay error with a positive sign or lead time with a negative sign

After 1 computer, the test subject presented a closed loop in the form of a circle, concentrically inside of which a test object of initial dimensions and configuration is located.

The subject, in accordance with the recommendations of [3], performed 13 stops for increasing the diameter of the object, the first three of which were not taken into account when determining the reaction time to an object moving towards it. As a result of testing, the following error time values of the mismatch between the diameters of the test object and the closed loop were obtained: -10, -11, -11, -6, -1, 0, -8, -5, +4, -6.

The reaction time of the test subject to an object moving towards him, calculated by the formula, is -6.0 ms.

Example 2

Subject B., 20 years old, similarly to subject A., performed a test to determine the reaction time of the subject to an object moving towards him. As a result of testing, the following error time values were obtained for the mismatch between the diameters of the object and the circle: -22; -17; +27; +6; +14; -2; +33; +11; +17; -8 ms

The reaction time of the test subject to an object moving towards him, calculated by the formula, is +5.9 ms.

The positive effect of the proposed method for determining the reaction time of a person to an object moving towards him is confirmed by the results of an experimental study on a group of 10 subjects.

The data obtained showed that the reaction time of a person to an object moving towards him is in the range of -45.2 ... + 36.8 ms.

Thus, the proposed method for determining the reaction time of a person to an object moving towards him allows to increase the technological capabilities of the method due to the implementation of the movement of the object towards the subject.

Literature

1. Surnina O.E., Lebedeva E.V. Gender 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. The possibilities of using the reaction to a moving object in assessing the results of a workout. // Human physiology. - 1982. - T. 8, No. 4. - S.653-660.

3. Methods and portable equipment for the study of individual psychological differences in humans. / N.M. Peysakhov, A.P. Kashin, G.G. Baranov, R.G. Vagapov. Ed. V.M.Shadrina. - Kazan: Publishing house Kazan. University, 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 equipment. - 2005. - No. 1. - S.7-13.

5. Patent No. 2326595 of the Russian Federation. A method for assessing the response time of a person to a moving object. / Pesoshin A.V., Petukhov I.V., Rozhentsov V.V. - Publ. 06/20/2008, Bull. Number 17. - 11 p.

6. Peysakhov N.M. Patterns of dynamics of mental phenomena. - Kazan: Publishing house Kazan. University, 1984. - 235 p.

7. Lapin A.I. Plane and space or life squared (3rd ed., Corrected and add.). M .: Publishers L. Gusev, M. Sidorenko, 2008. - 180 p.

Claims (1)

The method of determining the reaction time of a person to an object moving towards him by presenting the subject with a closed loop video monitor with a test object on the screen, at the time of the supposed merger of the closed loop with the test object, the test subject stops the test object by pressing the Stop button, and the mismatch error is calculated - time lag errors with a positive sign or lead - with a negative sign, the described procedure is repeated a specified number of times, after which time is calculated eaktsii human T _p to the moving object as the arithmetic mean of the formula:

where t _i is the time of the i-th delay error with a positive sign or lead with a negative sign, ms; n is the number of tests, characterized in that the test subject is presented with a closed loop, which is a limiting one, concentrically inside which a test object of a similar configuration is located, while the test object is increased according to a given speed, simulating its movement towards the test subject until the test object merges with the bounding loop, at after pressing the “Stop” button, the subject is again presented with a closed loop, concentrically inside of which there is a test object of initial dimensions in and configuration.

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