RU2546090C1 - Psychophysiological method for evaluation of operator work efficiency - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: similar by characteristics stimuli are shown to an operator in a random order and the time of the sensomotor reaction is registered by pressing the button. Shown are different by colour and duration of glowing visual stimuli in the form of colour spots, moved by discrete positions on a screen with a neutral background with stops, and simultaneously on the current discrete position only one spot, the colour of which differs from the colour of the spot on the previous and following positions, is presented, and the duration of the spot glowing is characterised by the first and the second, increased relative to the first one, duration. The time of reaction only at the presentation of the spot with the increased duration is registered by pressing the button, corresponding to the colour of the current spot, the number of mistakes is determined, the mean arithmetic time of reaction to signals for the entire test, by which the operator work efficiency is evaluated, is registered.

EFFECT: method makes it possible to increase the reliability of determining deviations in the condition of the operator work efficiency by the reduction of the level of attention indices due to instrumental examination.

8 cl, 1 dwg

Description

The invention relates to psychophysiology and can be used in a psychological examination of operators in various fields of work to assess the state of their performance.

Known methods for studying the functional state of the operator and assessing his state of health, for example, using physiological methods of objective diagnosis of the condition. First of all, the pulse rate, respiration, blood pressure, body temperature are subject to assessment (Leonova AB Psychodiagnostics of functional conditions of a person. - M.: Publishing House of Moscow University. 1984. - 200 p.). The data obtained can be supplemented by electrophysiological indicators: electroencephalogram (EEG) - an indicator of the level of activation of the brain; electrocardiogram (ECG) - assessment of the excitability of the heart muscle; electromyogram (EMG) - an indicator of muscle tone and level of muscle excitability; skin-galvanic reaction (RAG) - an indicator of the reaction of the autonomic nervous system associated with the activity of the reticular formation of the brain; rheoplethysmogram (RPG) is an indicator of vascular tone and the level of blood supply to the organ.

Psychological methods for assessing the subject’s health state include subjective questionnaires and scaling (Dictionary-Guide for Psychodiagnostics. L. F. Burlachuk, S. M. Morozov. Peter, 2004). Questionnaires are usually designed to diagnose a strictly defined condition (stress, fatigue, monotony). The use of scales for the study of states is based on an assessment of the experiences that arise in the process of a particular state. Using this method makes it possible to obtain a quantitative assessment of the trait being studied, however, it is difficult to determine the reliability of differentiation of the functional state, which may be related to the level of preparation of the test subject (subjectivity of the test subject when differentiating his level of readiness for activity).

There are known psychophysiological methods for studying the functional state of the operator and assessing his readiness for activity, for example, using the psychophysiological tests “Sense of time” and “Complex visual-motor reaction” (Ilyin EP Differential psychology of professional activity. - M .: 2003. - 307 p.). However, these tests are intended for research purposes and are not intended for the operational determination of the psychophysiological readiness of the operator to act accurately and in a timely manner (to perceive and respond to signals, make adequate decisions in the face of a shortage of time, etc.).

The psychophysiological method for determining the health of a human operator (RU 2268650 C1, Medvedev et al., January 27, 2006) by the degree of mental fatigue is described. The definition of mental fatigue consists in presenting the subject with signals of variable frequency in a rested and tired state, measuring the response of the subject to the presented signals and assessing the degree of fatigue by the relative deviation of the values of the measured indicators. The presented signals are formed in the form of test tasks requiring solution. The frequency of presentation of tasks varies in proportion to the frequency of their solution. Efficiency assessment is performed by the relative change in the average time of the correct solution of the test.

This method is focused on assessing the mental performance of operators who predominantly manage complex technical systems remotely, but it requires a significant amount of time to conduct a test procedure, which does not allow using this method to conduct an operational assessment of the working state, for example, driver profile operators during pre-trip control.

A psychophysiological method for assessing the level of attention of an operator is described (RU 2441585C1, Aidarkin E.K. et al., 10.02.2012). They present test tasks for performing a simple sensorimotor reaction, which differ in the type of stimulus and the size of the interstimulus interval. The coefficients of the dependence of the average reaction time on the interstimulus interval between the signals are calculated. Assessment of the characteristics of attention is done by getting the values of the obtained coefficients at given intervals.

The disadvantages of this method of assessing the level of attention, as an important component of the state of the operator’s health, include a significant duration, and in addition, the calculated coefficients are unstable parameters for the objective detection of negative dynamics of the operator’s attention level.

The closest in technical essence is the method of determining the professional preparedness of the operator (SU 1706571 A1, Volkov V.G. and Larin I.V. 23.01.1992 - prototype). Present a series of single stimuli with an interstimulus interval of 2-10 s, four of which are replaced by dual signals with an interstimulus interval of 0.3-0.8 s. Then, the response time to the second and first signals of the double stimulus is averaged and, with their ratio not exceeding 1.74, the operator’s professional readiness is determined.

However, this method of assessing the state of operability of the operator is based on the use in the test as diagnostic signals doubled in duration against the background of a sequence of single signals. Moreover, the doubling of the reference signals is carried out through the interstimulus interval, while the recognition and isolation of such reference signals is not difficult for the operator, which reduces the reliability of the diagnosis of states of fatigue and emotional imbalance. Another disadvantage of this method is that the calculated coefficients are unstable parameters for the objective identification of the negative dynamics of the state of operability of the operator’s attention.

A patented psychophysiological method for assessing the operator’s performance includes presenting to the operator randomly varying characteristics of the stimuli and recording the time of the sensorimotor reaction by pressing a button.

The difference between the method is that they present visual stimuli of different colors and luminosities in the form of color spots moving along discrete positions on the neutral background screen with stops, and only one spot is shown at a current discrete position, the color of which is different from the color of the spot by previous and subsequent positions, and the duration of the glow of the spots is characterized by the first and second, increased relative to the first, duration. At the same time, the response time only to the presentation of a spot with an extended duration is recorded by pressing the button corresponding to the color of the current spot, the number of errors is determined, the arithmetic mean response time to signals for the entire test, according to which the operator’s working state is evaluated.

The method may be characterized in that the number of spot colorings is not less than two, and the number of discrete positions is not less than three, and also that the neutral background screen, mainly gray, is a computer monitor screen or a mobile device.

The method can be characterized by the fact that when the number of colors is three, they are changed in the sequence: red, yellow, green, red, yellow, green, etc., and, in addition, when the number of discrete positions is twelve color spots move along the ring contour clockwise, while the discrete positions on the screen correspond to the full hour of the hands of the clock dial.

The method can be characterized by the fact that the color of the spot changes in sequence: red, yellow, green, red, yellow, green, etc., as well as the fact that the duration of the spot glow is from 0.6 to 1.0 s.

The method can be characterized by the fact that the test duration is not more than 1 minute at 10 full revolutions of the movement of color spots in discrete positions.

The technical result is an increase in the reliability of determining deviations in the state of operability of the operator to reduce the level of attention indicators.

In the patented psychophysiological method for assessing the operator’s working state, we first used the phenomenon of increasing the threshold for distinguishing the duration of individual light signals in the presented sequence of homogeneous (in duration) light signals. The ratio of the durations of the reference and elongated light signals is selected in such a way that the recognition and separation of such signals for the operator is significant difficulty if he is in a state of fatigue and is emotionally unbalanced. An additional circumstance complicating the accurate and timely response of the operator to signals of increased duration is the use of several response buttons in accordance with the color of the elongated signal. The patented method allows you to identify unacceptable deviations in the state of operability of the operator to reduce the level of attention indicators.

Assessing the state of operability of operators includes presenting on a screen with a neutral background (on a computer monitor, mobile device, etc.) a light stimulus moving along discrete positions in the form of a color spot. There is only one color spot on the screen at a time. The color of the spot changes when it moves to the next position. The number of colors staining the spot is at least two colors. The number of discrete positions of the color spot is at least three.

Randomly during the movement of the light spot along the positions of the stimulus field, the duration of its glow at one of the positions increases. Such an increase in the duration of the glow is a response signal. The test subject needs to recognize signals throughout the test.

At the same time, the number of errors, the response time to each signal, and the arithmetic average response time to signals for the entire test are recorded as parameters of the sensorimotor reaction, according to which the operators' readiness for activity is evaluated.

The advantages of the method include the possibility of conducting mass surveys of operators in various fields of work; the possibility of individual use by the operator of this assessment method using a mobile device equipped with appropriate software.

Patented psychophysiological method of assessing the operator’s readiness for activity can be implemented as follows (see drawing).

Visual stimuli are formed on screen 1 with a neutral background on a circular path 2 in the form of small circles 3 (12 positions in total, as on the clock dial) along which color spot 4 moves. Spot 4 can have three colors: red, yellow or green. The color of spot 4 changes when it changes clockwise (the direction shown by arrow 5) to the next position in strict sequence: for example, red (at 12 o’clock), yellow (at 1 o’clock), green (at 2 o’clock), etc. .

In one cycle (moving the light spot over all twelve positions of the stimulus field), the duration of the glow of the color spot at one of the positions increases. Such an increase in the duration of the glow is a response signal. On each lap, a signal can appear at any of 12 positions.

The test subject observes a screen (background is gray), on which a color spot moves sequentially from one position to another. The duration of the glow of the color spot at one position is 600 ms. An increase in the duration of the glow of a color spot at one of the positions of the circle can be up to 350 ms. The test subject must notice the signal and respond as quickly as possible by pressing the button of the same color as the color of the signal detected.

The following data is logged:

- the number of response errors in the absence of a signal (reaction to the glow of a color spot of background duration);

- the number of errors responding to the signal (pressing the wrong button);

- the number of gaps in the signal;

- response time to signals.

The total number of response errors to the signals and the arithmetic mean response time to the signals are calculated.

A test is considered to be successfully passed if the total number of error responses to the signals does not exceed the critically acceptable level.

For a subtle diagnosis of the dynamics of the functional state of the subject (for example, when assessing the dynamics of the athletic form of athletes), it is advisable to use the arithmetic mean of the response time (an increase in the typical value of the reaction time by more than 20% indicates the formation of a state of fatigue and underestimation of the physiological resources of the body).

The patented method can be implemented using a device for evaluating operator activity (RU 2127547 C1, Bonch-Bruevich V.V. et al., March 20, 1999) with the addition of the corresponding software. This device allows you to assess the dynamics of the state of readiness of the operator to work in personalized conditions during long-term observations. The patented method can also be implemented using a mobile device equipped with adapted software.

Since the operator’s working state is determined primarily by his ability to accurately and timely respond to significant signals, classical psychophysiological tests were used to check the patented method for validity: “Sense of time”, “Complex visual-motor reaction”, “Attention switching speed” (Ilyin EP Differential psychology of professional activity. - M.: 2003, Dictionary-Guide for Psychodiagnostics. L.F. Burlachuk, S.M. Morozov, Peter, 2004).

Studies have shown that the correlation of test results for different samples of operators (locomotive crew workers, bus drivers) ranged from 0.68 to 0.85, which indicates the promise of using the patented psychophysiological method.

Claims (8)

1. Psychophysiological method of evaluating the health of the operator, including presenting to the operator randomly varying characteristics of the stimuli and recording the time of the sensorimotor reaction by pressing a button,
characterized in that
they produce visual stimuli of different colors and luminosities in the form of color spots that move along discrete positions on the neutral background screen with stops, and only one spot at a time is displayed at the current discrete position, the color of which is different from the color of the spot at the previous and subsequent positions, and the duration spot glow is characterized by the first and increased relative to the first, second duration, while
the response time is recorded only for the presentation of a spot with an increased duration by pressing the button corresponding to the color of the current spot, the number of errors is determined, the arithmetic mean response time to signals for the entire test, according to which the operator’s working state is evaluated. 2. The method according to p. 1, characterized in that the number of stain colors is at least two, and the number of discrete positions is at least three. 3. The method according to p. 1, characterized in that the screen of a neutral background, mainly gray, is a monitor screen of a computer or mobile device. 4. The method according to p. 1, characterized in that when the number of colors is three, they are changed in the sequence: red, yellow, green, red, yellow, green, etc. 5. The method according to claim 1, characterized in that for the number of discrete positions, twelve color spots are moved clockwise along the annular contour, while the discrete positions on the screen correspond to the full hour of the hands of the watch dial. 6. The method according to p. 1, characterized in that the color of the spot changes in sequence: red, yellow, green, red, yellow, green, etc. 7. The method according to p. 1, characterized in that the duration of the spot glow is from 0.6 to 1.0 s. 8. The method according to p. 1, characterized in that the test duration is not more than 1 minute at 10 full revolutions of the movement of color spots on discrete positions.