RU219599U1 - Device for monitoring the dynamics of the psychophysical state of a person - Google Patents

Abstract

The utility model relates to the field of pedagogy, in particular to teaching aids. The technical result is achieved by the fact that the device for monitoring the dynamics of the psychophysical state of a person is made in the form of a triangular writing pen and is equipped with pressure sensors of the fingers, while in the middle of the body of the triangular writing pen there is a blue LED, in the upper third of the cavity of the pen there is a tremor sensor, consisting of a glass cylinder, in the cavity of which a neodymium magnet and a two-layer plate in the form of a circle of pyrolytic graphite and plastic are placed, while the two-layer plate is made with a smaller diameter than the base of the glass cylinder, a semiconductor laser is installed above the glass cylinder, two focusing lenses, a chip with a receiving sensor and a signal processing unit, a battery pack is placed under the tremor sensor, while the upper part of the handle body is made of translucent plexiglass, under which there is a circuit board with yellow, orange and red LEDs, a semiconductor laser is configured to illuminate the upper base of the glass cylinder through the first focusing lens , reflection of laser light from the upper plastic layer of the two-layer plate and focusing on the receiving sensor of the microcircuit through the second focusing lens, the microcircuit with the receiving sensor is made with the possibility of taking a picture of the surface of the second part of the two-layer plate with processing of the obtained sequential pictures in the signal processing unit. The technical result is to increase the effectiveness of training by providing the student with the ability to monitor the degree of weakening of attention and fatigue.

Description

The utility model relates to the field of pedagogy, in particular to teaching aids.

An analogue of the utility model is a device that measures the psychophysical data of a person: galvanic skin reaction, finger tremor, pulse rate, blood pressure level, parameters of upper and lower breathing. It is called a "lie detector" (Ekman P. Psychology of lies. - St. Petersburg: Peter. 2001. - S. 134-144). It is mass-produced under various names, for example, “EPOS-5 computer polygraph”, manufactured at the Research Institute of Special Equipment of the Ministry of Internal Affairs of Russia ZPO “EPOS Group”.

The disadvantage of the analogue is the possibility of its use only by specialists with basic knowledge in order to measure the psychophysical data of a person, which limits the scope of its application, for example, for educational purposes.

The prototype of the utility model is a device for monitoring the dynamics of a person's psychophysical state, made in the form of a special triangular writing pen equipped with pressure sensors and finger tremors, an electronic unit with a low-voltage power supply, with a device for displaying measurement results, while for signals from the sensors of the writing handles, an input to the computer is provided for their amplification, analysis, storage of their averaged data, processing and displaying in the form of digital information (utility model patent RU 47641 U1, published 10.09.2005).

The disadvantages of the prototype is the possibility of its use only by the teacher in order to measure the psychophysical data of students, which limits the scope of its application, for example, students in order to self-monitoring the psychophysical state.

The objective of the utility model is to develop a device for monitoring the dynamics of a person's psychophysical state, which makes it possible to expand the scope of its application for educational purposes.

The technical result is to increase the effectiveness of training by providing the student with the ability to monitor the degree of weakening of attention and fatigue.

The technical result is achieved by the fact that the device for monitoring the dynamics of the psychophysical state of a person is made in the form of a triangular writing pen and equipped with finger pressure sensors, while in the middle of the body of the triangular writing pen there is a blue LED, in the upper third of the cavity of the pen there is a tremor sensor, consisting from a glass cylinder, in the cavity of which a neodymium magnet and a two-layer plate in the form of a circle of pyrolytic graphite and plastic are placed, while the two-layer plate is made with a smaller diameter than the base of the glass cylinder, a semiconductor laser is installed above the glass cylinder, two focusing lenses, a chip with a receiving sensor and a signal processing unit, a battery pack is placed under the tremor sensor, while the upper part of the handle body is made of translucent plexiglass, under which there is a circuit board with yellow, orange and red LEDs, a semiconductor laser is configured to illuminate the upper base of the glass cylinder through the first focusing lens, reflecting laser light from the upper plastic layer of the two-layer plate and focusing on the receiving sensor of the microcircuit through the second focusing lens, the microcircuit with the receiving sensor is configured to take a picture of the surface of the second part of the two-layer plate with processing of the obtained successive images in the signal processing unit.

Placing a blue LED in the middle of the body of a trihedral writing pen allows you to determine the allowable force of pressing the fingers on the pressure sensors, due to visual observation of its inclusion.

Placement of the tremor sensor allows: to duplicate the oscillatory movements of the student's hand with a two-layer plate when performing written training tasks due to the levitation of the first layer of a two-layer plate made of pyrolytic graphite and a smaller diameter of the two-layer plate in the form of a circle than the base of a glass cylinder;

to determine the parameters of oscillatory movements of a two-layer plate: due to the second layer of a two-layer plate made of plastic, which allows reflecting the light of a semiconductor laser and protecting a layer of pyrolytic graphite from light; by illuminating the upper base of the glass cylinder with a semiconductor laser through the first focusing lens, reflecting the laser light from the upper layer of the two-layer plate (plastic) and focusing on the receiving sensor of the microcircuit through the second focusing lens, taking a picture of the surface of the second part of the two-layer plate with a high frequency (kHz) by the microcircuit with a receiving sensor, processing the received images in the signal processing unit, while processing the analysis of a series of successive images (representing a square matrix of pixels of different brightness) is carried out, the resulting indicators are calculated, indicating oscillations (displacements) of the two-layer plate relative to the X or Y axes;

close three circuits of the electrical circuit in accordance with three threshold values, in the first circuit at 0-4 Hz, in the second circuit at 5-10 Hz, in the third circuit at 11 Hz or more.

The placement of the battery pack allows you to provide the possibility of autonomous power supply of electrical circuits.

Making the upper part of the handle body from translucent plexiglass and placing a circuit board with LEDs under it, allows the student to visually determine three degrees of weakening of attention and fatigue by the color of the turned on LED (glow of the yellow LED - the first degree, glow of the orange LED - the second degree, glow of the red LED - third degree).

An additional positive feature of the proposed device is the possibility of using it to work on the touch surface of tablet computers by placing a silicone tip on the tip of the writing element of the pen.

Thus, the combination of the presented features makes it possible to achieve the desired technical result, namely, to develop a device for monitoring the dynamics of the psychophysical state of a person, which makes it possible to expand the scope of its application for educational purposes by providing the student with the ability to monitor the degree of weakening of attention and fatigue.

Figure 1 shows a device for monitoring the dynamics of the psychophysical state of a person, consisting of a body in the form of a trihedral writing pen 1, a writing element 3, finger pressure sensors 2, a blue LED 10, a tremor sensor 4, a battery pack 11, the upper part of the housing made of translucent plexiglass 5, circuit board 9 with yellow 6, orange 7 and red 8 LEDs.

Figure 2 shows a tremor sensor consisting of a glass cylinder 12, a neodymium magnet 13, a two-layer plate in the form of a circle of pyrolytic graphite 21 and plastic 20, a semiconductor laser 15, two focusing lenses 14 and 19, a chip 16 with a receiving sensor 18 and a processing unit signals 17.

Figure 3 shows a top view of the glass cylinder 12 of the tremor sensor, neodymium magnet 13, the top layer of the two-layer plate (plastic) 20.

Figure 4 shows the tremor sensor and the process of illuminating the upper base of the glass cylinder with a semiconductor laser 15 through the first focusing lens 14, reflecting the laser light 22 from the upper layer of the two-layer plate (plastic) 20 and focusing on the receiving sensor of the microcircuit 18 through the second focusing lens 19.

Figure 5 shows an electrical diagram of a device for monitoring the dynamics of the psychophysical state of a person, consisting of a battery pack 11, finger pressure sensors 2, a microcircuit 16 with a receiving sensor 18 and a signal processing unit 17, the connection point of the first circuit (I ₁ ) 23, the place connection of the second circuit (I ₂ ) 24, connection point of the third circuit (I ₃ ) 25, yellow LED 6, orange LED 7, red LED 8, semiconductor laser 15, blue LED 10.

The device for self-control of the dynamics of the psychophysical state of a person works as follows.

The student takes the device 1 in his hand, presses his fingers on the pressure sensors 2, in the power circuit: "plus" of the battery pack 11, finger pressure sensors 2, blue LED 10, microcircuit 16 with a receiving sensor 18 and a signal processing unit 17, "minus" of the battery pack 11; "plus" of the battery pack 11, pressure sensors of the fingers 2, blue LED 10, semiconductor laser 15, "minus" of the battery pack 11.

When the device registers oscillatory movements of the student's hand 0-4 Hz, the signal processing unit 17 closes the electrical circuit of the first circuit (I ₁ ) 23, a yellow LED 6 is added to the power circuit.

When the device registers oscillatory movements of the student's hand 5-10 Hz, the signal processing unit 17 closes the electrical circuit of the second circuit (I ₂ ) 24, an orange LED 7 is added to the power circuit.

When the device registers oscillatory movements of the student's hand of 11 Hz or more, the signal processing unit 16 closes the electrical circuit of the third circuit (I ₃ ) 25, a red LED 8 is added to the power circuit.

In this case, with a slight pressure on the pressure sensors of the fingers 2, the blue LED 10 does not turn on (there is no power in the electrical circuits).

Checking the health of the device.

The student takes the device in his hand, presses the pressure sensors with his fingers and carries out intensive oscillatory movements of the hand, the field of which turns on the blue, yellow, orange and red LEDs, which indicates that the device is working.

An example of using a device for self-control of the dynamics of a person's psychophysical state.

The student independently studies the educational material and writes it down in a notebook using the device. In the process of work, a light indication is displayed on the body of the device about the dynamics of the student's psychophysical state, allowing the student to judge the degree of weakening of his attention and fatigue and, depending on this, change the method of independent work with educational material (watching videos, listening to audio books, electronic testing, etc.). ) or take a short rest.

Claims (2)

1. A device for monitoring the dynamics of a person's psychophysical state, made in the form of a trihedral writing pen and equipped with finger pressure sensors, characterized in that a blue LED is placed in the middle of the body of the trihedral writing pen, a tremor sensor consisting of a glass cylinder, in the cavity of which a neodymium magnet and a two-layer plate in the form of a circle of pyrolytic graphite and plastic are placed, while the two-layer plate is made with a smaller diameter than the base of the glass cylinder, a semiconductor laser is installed above the glass cylinder, two focusing lenses, a microcircuit with a receiving sensor and a block signal processing, a battery pack is placed under the tremor sensor, while the upper part of the handle body is made of translucent plexiglass, under which there is a circuit board with yellow, orange and red LEDs, a semiconductor laser is configured to illuminate the upper base of the glass cylinder through the first focusing lens, reflection of the laser light from the upper plastic layer of the two-layer plate and focusing on the receiving sensor of the microcircuit through the second focusing lens, the microcircuit with the receiving sensor is made with the possibility of taking a picture of the surface of the second part of the two-layer plate with processing of the obtained successive pictures in the signal processing unit. 2. The device according to claim. 1, characterized in that it is made with the possibility of recording and processing signals about pressure and tremor of the fingers inside the device with output to the device body in the form of a light indication.