RU2683884C1 - Psychophysiological evaluation method of human base cognitive functions - Google Patents

Abstract

FIELD: psychophysiology.SUBSTANCE: according to the invention, the test person is presented with visual stimuli in the form of circles on a touch screen with a neutral background and recording the reaction time thereof with subsequent calculation of the functional state of the test subject, wherein presentation of visual stimuli in the form of circles on the touch screen is performed successively in four series, in the first of which the person being tested is repeatedly presented with a circle on the screen of the touch monitor and the person being tested touches the screen at the point of the circle presentation, after which the circle is brought out to the other position of the screen, in the second series the circle color is changed, circle is repeatedly presented on the screen of the touch monitor to the person being tested, the tested person touches the screen in the place of the circle presentation and gradually reduces the presentation time, in the third series in the random sequence there are presented circles of two different colors, the tested one touches the screen in the place of the circle presentation, one of which, which corresponds to the main color, when pressed is removed from the screen, and when pressing on the other, a short audio signal is generated, and in the fourth series, three matrices with circles of two and four colors are sequentially presented, the test is touching the screen at the point of presentation of the circles, when pressed, the circles of the specified color are excluded, and according to the results of the fourth series, the number of misses at pressing, number of pressing on circles of non-main color and average time of free reaction are determined.EFFECT: invention can be used to assess basic human cognitive functions.1 cl

Description

The invention relates to psychophysiology and can be used to assess the basic cognitive functions of a person.

Psychophysiological methods are known for studying a person’s functional state and its readiness for various types of activities, for example, using psychophysiological tests [Ilyin EP Differential psychology of professional activity. - M: 2003. - 307 p.].

The disadvantage of such methods is the relatively narrow scope of their application, which does not allow, for example, to evaluate the basic cognitive functions of a person.

There is a known psychophysiological method for determining the functional state of a person [RU 2268650, C1, АВВ 5/16, 01/27/2006.], Which consists in presenting to him signals of variable frequency in rested and tired states, measuring his response to the presented signals and assessing performance by relative deviation the values of the measured indicators, in this case, the signals are formed in the form of tests requiring solutions, the conditions and results of which are displayed on the screen of the video monitoring device, the number of tests for rested of the tired and tired states are set to the same and presented to the human operator in a random sequence with a frequency that is proportional to the frequency of their decision, the total total time from the beginning to the end of the solution of a given number of tests is measured, the total delay time of the output of the video monitoring device presented to the human operator conditions of tests and the results of their decisions, taking into account corrections, determine the number of correctly solved tests and the total net time to solve a given quantity TBA test and performance evaluation was made based on the relative change in the average time of a correct solution of the test in accordance with the given expression.

The disadvantage of this method is the relatively narrow scope of its application, which does not allow to evaluate, in particular, the basic cognitive functions of a person.

The closest in technical essence to the proposed one is the method [RU 2546090, C1, АВВ 5/16, 04/10/2015], including presenting to a person randomly varying characteristics of stimuli and recording the time of the sensorimotor reaction by pressing a button, moreover, they show different colors and the duration of the glow, visual stimuli in the form of color spots moving along discrete positions on the neutral background screen with stops, and, at a time, only one spot is presented at the current discrete position, the color of which it differs from the color of the spot at the previous and subsequent positions, and the duration of the glow of the spots is characterized by the first and increased relative to the first, second duration, while the response time is recorded only upon presentation of the spot with an increased duration by pressing the button corresponding to the color of the current spot, determine the number of errors, the arithmetic mean response time to the signals for the entire test, which assess the state of the person.

The disadvantage of the closest technical solution is the relatively narrow scope of its application, since it does not allow to evaluate, in particular, the basic cognitive functions of a person.

The problem that is solved in the invention is to expand the arsenal of technical means used to evaluate the basic cognitive functions of a person by expanding the scope of the known method.

The required technical result is to expand the scope of the method by applying an arsenal of technical means that provide an assessment of the basic cognitive functions of a person.

The problem is solved, and the required technical result is achieved by the fact that, in the method according to which the test subject is presented with visual stimuli in the form of circles on a touch screen with a neutral background and the response time is recorded with subsequent calculation of the functional state of the test subject, according to the invention, presentation of visual stimuli in the form of circles on the touch screen, they produce sequentially in four series, in the first of which the subject is repeatedly presented with cr dinner on the screen of the touch monitor and the subject touches the screen at the place of presentation of the circle, after which the circle is displayed on another place on the screen, and the results of the first series determine the number of misses of the test person and the average time of free reaction, in the second series they change the color of the circle, repeatedly present the circle on the screen of the touch monitor to the subject, the subject touches the screen at the place of presentation of the circle, the presentation time is gradually reduced and the average free time is determined from the results of the second series in the third series in a random sequence, circles of two different colors are presented, the subject touches the screen at the place of presentation of the circle, one of which, which corresponds to the main color, is removed from the screen when pressed, and when you click on another, a short sound signal is generated and according to the results of the third series, the number of misses when pressed, the number of repeated clicks and the average time of free reaction are determined and, and in the fourth series, three matrices are presented in succession with circles of two and four colors, the subject touches the screen at the place of presentation of the circles, when pressed, circles of a given color are excluded and the number of misses when pressed is determined by the results of the fourth series, the number of clicks on circles not of the main color and average free reaction time.

The proposed psychophysiological method for assessing the basic cognitive functions of a person is implemented as follows.

For its implementation, computer technology is used to measure the temporal characteristics of the test subject’s reaction in a situation of free choice for studying basic human cognitive functions. This allows for differential diagnosis of cognitive impairment and psychophysiological studies of individual differences in the composition of complex psychophysiological studies.

The proposed method does not have age restrictions, does not depend on the socio-cultural characteristics of the subject, does not require detailed instructions and contact with the experimenter, which makes it possible to use the method in working with people with speech and communication impairment, studies take from 5 to 15 minutes and allow quantitative assessment basic cognitive functions of a person and / or their impairment.

The object of research is the measured characteristics of the process of perception, interpretation and solution of the simplest cognitive problem. The task itself is latent, since the goal is not set from the outside, but is formed by the subject himself in the process of activity, and the algorithm for selecting parameters for presenting visual stimuli takes into account the individual temporal characteristics of the subject's activity.

The method is implemented in the form of sequentially conducting four series, during which the subject acts independently. In all series, time, accuracy and sequence of all reactions are recorded. Series follow each other without interruptions and additional instructions.

First episode. The subject is presented with a circle on the screen of the touch monitor (for example, a blue circle on a light background) and is invited to click on it. After pressing the circle disappears and appears in another place on the screen. The stimulus presentation time is not limited. Measured parameters: accuracy of clicks (number of misses) - KP1 and free time of HRV, which is determined, for example, by reaction times from the last 15 exact clicks with the number of presentations equal to 20. Possible causes of misses: violation of hand-eye coordination, timing, false forecast, decreased attention, etc.

The second series. The color of the stimulus changes, the presentation time is limited and gradually decreases (the interval is automatically calculated taking into account the data of the first series). The presentation time is limited, for example, after the fifth stimulus, the time is logarithmic with a base of 0.5. The presentation lasts up to five consecutive misses. Measured parameters: response time to a new VN stimulus, response time - BP, maximum acceleration maxU in percent, relative to the average BP. This indicator reflects the relative decrease in reaction time compared with the free reaction.

The third, differentiating, series - in a random sequence, circles of two colors are presented, disappearing when pressed (as in series 1) and “blocked”, when pressed, an audible signal is given. The time of presentation of a blocked stimulus is determined algorithmically from the results of the first series. The time of presentation of a blocked stimulus is determined algorithmically from the results of the first series. The blocked stimulus disappears after a period of time equal to HRV * 2, and when pressed, an audio signal is generated. Present, for example, 20 stimuli (10 of each color), alternating in random order. The time of presentation of the main stimulus is not limited, it disappears after pressing and the next one is presented in another part of the screen. Measured parameters: accuracy (KP3), the number of repeated presses (KPN) and reaction time (BP3), as the average reaction time is calculated for the main (disappearing) stimulus. KPZ - the total number of misses in the third series, KPN - the number of repeated clicks on a blocked stimulus, BP3 - the average time of pressing the main stimulus.

The fourth series. Three matrices are presented sequentially with stimuli of two and four colors, when pressed, only the circles of the main color disappear. The matrix, in the particular case, is a field in which 25 circles are arranged in the form of a 5 × 5 table, the same size as in the previous series. The first matrix is circles of two colors - the main one and the one that was blocked, for example, blue and red. The second matrix is the same in shape, but the circles are four colors, the third is similar to the second, but some circles are larger. The main color is the one presented in the first series. Measured parameters: accuracy (KP4), reaction time (BP4), the number of clicks on blocked stimuli (CBN).

Measured indicators: Free reaction time (HRV) - reflects the temporal characteristics of the subject's activity: sensorimotor lability coefficient (calculated by the number of misses recorded during the test separately for each series and in total) - reflects the general and dynamic state of the sensorimotor system. The coefficient OR - reflects the balance of the indicative and defensive reaction. Motivational index - calculated by a formula that takes into account purely repeated clicks on blocked stimuli.

Free reaction time (HRV) - reflects the temporal characteristics of the subject. It is calculated in the first series and serves as a standard for calculating the parameters of stimulus presentation in subsequent series. The sensorimotor lability coefficient is calculated by the number of misses recorded during the series separately for each of them and in total, which reflects the general and dynamic state of the sensorimotor system.

An indicative and defensive reaction is an unconditionally reflex response to a new stimulus. If the stimulus is recognized as insignificant, a defensive reaction does not develop. In our task, the approximate reaction is expressed in the delay of the reaction (for some violations it is delayed), the subject can ask a question, state that the color is now different and continue to work. In the case of a predominant defensive reaction, the delay is very significant, a person needs confirmation that you can continue. This ratio reflects the OR balance coefficient, which is calculated by the time delay of the reaction that occurs when the stimulus first changes color (transition from series 1 to series 2. = Time of first pressing (in% of HRV).

The characteristics of activities are significantly affected by motivation. The motivational component reflects the subject's internal desire to complete the task without external motivation and is calculated by the number of purely repeated clicks on blocked stimuli in comparison with the maximum acceleration.

In addition to the above quantitative indicators, the method allows to qualitatively evaluate individual differences in the interpretation of the latent task. These differences are associated with the individual typological characteristics of the subject. According to the results of processing the measured indicators, four main types of interpretation of the latent task are distinguished: analytical, experimental, algorithmic and indefinite.

The tempo characteristics of cognitive activity - this is a reaction to novelty, a reaction to an obstacle, attention, logical and extrapolation thinking also allows you to evaluate the influence of motivation factors and individual interpretation on the decision process.

Individual interpretations of the task.

During the observation of the subjects, various variants of perception and interpretation of the “events” proposed by the task were revealed.

When changing the color of the stimulus (series 2), the subjects either noted the changes “now others have gone ...” or asked the experimenter questions (“should I click on the circles of a different color?”), Which in most cases was accompanied by an increase in the time of the first reaction. In a number of cases, ignored changes or delayed stating were observed. These reactions can reflect both the level of attention and confidence in their actions.

The decrease in the time of presentation of the stimulus also caused a different reaction: from a passive statement “they are running away ...” to active interaction “we must catch up!”. Such interpretations may reflect characteristics of temperament, cognitive activity, and intrinsic motivation.

The sound signal when clicking on a blocked stimulus (series 3) was also perceived differently by subjects (“program failure”, “prohibition of pressing”, “need for repeated clicks”, etc.), which corresponded to further actions. Some subjects set themselves the task of finding a way to remove stimuli and were sure that they had solved it. Others, making sure that the blocked stimuli disappear themselves, no longer clicked on them. The described options can be associated with typological characteristics of thinking and cognitive activity.

The sequence of clicking on the circles when presenting the matrices to the subject indicates the perception of the latent task and extrapolation of the findings to a new situation. So the subjects, who came to the conclusion that when pressed only the stimuli of a certain color disappear, chose mainly the circles corresponding to this in the matrices. In some cases, training took place directly when working with matrices, which was reflected in a decrease in the number of clicks on blocked stimuli. But there were also options for the “mechanical” execution of the original instruction, when all stimuli were pressed sequentially without taking into account the result.

Thus, by improving the known method, the required technical result is achieved, which consists in expanding the arsenal of technical means used to evaluate the basic cognitive functions of a person and expanding the scope of the method.

Claims (1)

A psychophysiological method for assessing the basic cognitive functions of a person, according to which the subject is presented with visual stimuli in the form of circles on a touch screen with a neutral background and the response time is recorded, followed by calculation of the functional state of the subject, characterized in that visual stimuli are presented in the form of circles on the touch screen sequentially in four series, in the first of which the subject is repeatedly presented with a circle on the touch screen of the monitor and the subject touches the screen at the place of presentation of the circle, after which the circle is displayed on another place on the screen, and the results of the first series determine the number of misses of the test person and the average time of free reaction, in the second series they change the color of the circle, repeatedly present the circle on the screen of the touch monitor to the test subject, the subject touches the screen at the place of presentation of the circle, the time of presentation is gradually reduced and the average time of free reaction to the the circle and the maximum acceleration relative to the average free reaction time, in the third series in circles of two different colors are presented in a random sequence, the subject touches the screen at the place of presentation of the circle, one of which, which corresponds to the main color, is removed from the screen when pressed, and when pressed another form a short sound signal, and the results of the third series determine the number of misses when pressed, the number of repeated clicks and the average time of free reaction, and in the fourth series three matrices are presented in succession with circles of two and four colors, the subject touches the screen at the place of presentation of the circles, when pressed, circles of a given color are excluded and the number of misses when pressed, the number of clicks on circles of a non-primary color and the average free reaction time are determined by the results of the fourth series.