RU2776620C1 - Intelligent controller of the attention reserves of a helicopter pilot when using night vision goggles - Google Patents

Abstract

FIELD: intelligent controllers.

SUBSTANCE: intelligent controller of the attention reserves of the helicopter pilot contains a body in the form of a black cylinder with a base radius of 500 to 600 mm with a power button and a health indicator. White lines 1.5 to 2 mm thick are applied on the front face of the case and three indicators of red, yellow and blue are built-in. The intelligent controller also contains a microprocessor, a power source, a wireless interface unit, a storage device with non-volatile memory, a joystick control panel, a bioradar, a speaker, a three-mode light indicator, and is also configured for bidirectional information exchange with the pulse rate and respiration rate sensors built into the pilot's equipment, body temperature, skin moisture and bioelectrical activity of the human brain.

EFFECT: improvement of the quality of psycho-physiological training of the pilot is provided.

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Description

The invention relates to the field of engineering psychology and ergonomics and can be used in the system of psycho-physiological training of flight personnel.

From the prior art, a device is known for monitoring the workload of a helicopter pilot during simulator training (patent for invention RU No. power on / off button, health indicator and mount, white lines 1.5 to 2 mm thick are applied to the front part of the upper face along the radii dividing the upper face of the case into three equal sectors, and three glowing lines are built into the front part of the upper face red, yellow and blue colors of the indicator with a diameter of 5 to 10 mm, located in the centers of the radii, which are the bisectors of the sectors of the upper face of the case, and the indicators are connected by wires to the microprocessor located inside the case, to which the power source located inside the case is also connected by wires, wireless interface unit and storage device with non-volatile th memory, and also, through the holes in the side face of the case, a remote control made in the form of a joystick and a bioradar located outside the case are connected to the microprocessor by wires.

The disadvantage of this technical solution is the impossibility of monitoring the workload of a helicopter pilot synchronously with monitoring the severity of his functional states, which is important for solving a set of applied problems of psychophysiological training of flight personnel.

The technical objective of the invention is to expand the arsenal of means for monitoring the state of the helicopter pilot in the process of activity in order to improve the quality of psychophysiological training.

The solution of the technical problem is achieved by the fact that the intelligent controller of the attention reserves of the helicopter pilot contains a body made in the form of a black cylinder with a base radius of 500 to 600 mm; part of the upper face of the case along the radii dividing its upper face into three equal sectors, white lines from 1.5 to 2 mm thick are applied, three indicators with a diameter of 5 to 10 are built into the front of the upper face of the case mm, located at the centers of radii that are bisectors of the sectors of the upper face of the housing, and the indicators are connected to a microprocessor located inside the housing, to which a power source, a wireless interface unit and a drive with non-volatile memory located inside the housing are connected, and through holes in the side face of the housing, connected to the microprocessor a joystick-shaped console and a bioradar, wherein: a speaker and a three-mode light indicator are mounted in the side surface of the housing flush with its surface and connected by wires to the microcomputer; made with the possibility of bidirectional exchange of information with sensors built into the pilot's equipment for pulse rate, respiration rate, body temperature, skin moisture and bioelectrical activity of the human brain; the case is made in a dust and moisture protective shockproof fire and explosion-proof design; an air temperature sensor, an air humidity sensor and a health indicator connected to the microcomputer are mounted in the side surface of the case flush with its surface and connected by wires to the microcomputer, and the microcomputer is made with the following capabilities: adaptive control of the frequency of polling sensors built into the pilot's equipment and calculation the severity of the pilot's functional states in terms of air temperature, air humidity, pulse rate, respiration rate, body temperature, skin moisture and indicators of the bioelectrical activity of the pilot's brain.

The technical result achieved by the claimed combination of features is to provide the possibility of monitoring the attention reserves of a helicopter pilot when using night vision goggles.

The components of the claimed invention are known from the prior art:

microcomputer is an embedded system - a specialized microprocessor control system, the development concept of which is that such a system works, being built directly into the controller, but at the same time is not perceived as a computer (since it does not have a conventional monitor and keyboard, it does not display the usual operating system and other software) - the range of microcomputers includes thousands of items and modifications;

the bioradar can be made according to the solution described in the utility model patent RU No. 142167;

the wireless interface unit can be made according to the solution described in the patent for the invention RU No. 2415500;

the block for transmitting information over the wireless interface can be implemented according to the technical solution set forth in the patent for invention No. 2713603;

the information receiving unit can be implemented according to the technical solution set forth in the patent for invention No. 2350045;

the skin moisture sensor can be implemented according to the technical solution set forth in the utility model patent No. 179569;

the body temperature sensor can be implemented according to the technical solution set forth in the patent for invention No. 2525568;

the respiratory rate sensor can be implemented according to the technical solution set forth in the patent for invention No. 2392852;

the pulse rate sensor can be implemented according to the technical solution set forth in the patent for invention No. 2403861;

the speaker can be implemented according to the technical solution set forth in the patent for invention No. 2692096;

the health indicator can be made according to the solution described in the utility model patent RU No. 165096;

indicators can be made according to the solution described in the patent for the invention RU No. 2012949;

the power supply can be made according to the solution described in the patent for the invention RU No. 2644005;

the power on/off button can be made according to the solution described in the utility model patent RU No. 7240;

the microprocessor can be made according to the solution described in the patent for the invention RU No. 2666458;

a drive with non-volatile memory can be made according to the solution described in the patent for the invention RU No. 2352001;

the remote control can be made according to the solution described in the patent for invention RU No. 2596576,

pilot equipment can be made https://fashionunited.ru/novostee/beeznyes/k-2022-godu-postavki-umnoj-odezhdy-prevysyat-31-mln-shtuk/2017112219913;

the cable that connects the components of the inventive controller provides bidirectional signal transmission - for example, a typical category 6 or 5 twisted pair cable.

Using a cable, the components in the controller housing are connected in an active star topology, the center of which is the microcomputer contained in the housing.

The body of the device is fixed in the cockpit of the helicopter simulator, orienting so that one sector is "central", the other is "left" and the third is "right".

The remote control in the form of a joystick is fixed on the collective pitch lever of the helicopter, controlling the orientation of the joystick handle (left-forward-right).

The bioradar is fixed on the wall of the simulator cabin so that it is directed at the pilot's face.

The power supply provides power to all components of the device.

Before performing the exercise on the simulator, turn on the power, instruct the trained pilot:

when the blue indicator lights up, no matter in which sector it lights up, move the joystick to the left, when the yellow indicator lights up, no matter in which sector it lights up, move the joystick forward, when the red indicator lights up, regardless of whether in which sector it caught fire, move the joystick to the right.

When performing a flight, the pilot performs a flight task and, as an additional task, reacts to the ignition of lamps according to the above algorithm.

The microprocessor provides random ignition of indicators with a random change in their color at an a priori specified rate (moreover, the same indicator of the same color should not light up twice in a row), fixes the pilot's reaction time to the ignition of indicators, the number of correct and erroneous reactions and information from the bioradar (frequency pulse and respiration). This information is transmitted to the control panel of the simulator using the wireless interface unit and is written to the drive with non-volatile memory.

The workload indicator is calculated according to one of the well-known algorithms: both for the entire flight and for its individual stages [algorithms are presented, for example, in Ushakov I.B., Kukushkin Yu.A., Bogomolov A.V. Physiology of labor and reliability of human activity. M.: Nauka, 2008. 317 p.].

Before using the claimed controller:

Sensors of indicators of the psychophysiological state necessary for calculating the integral indicator (estimation) of the psychophysiological state (sensors of pulse rate, respiratory rate, body temperature, bioelectrical activity of the brain, moisture of the skin), connected to the microcomputer built into this equipment, are pre-embedded in the equipment of the pilot - controller user , to which, with the possibility of bidirectional information exchange, the information transmission unit built into this equipment is connected to the information reception unit located in the body, without interfering with the pilot's performance of activities (the discreteness of information transmission in the process of professional activity is determined by the microcomputer in the body).

Microcomputer in the case:

according to predetermined algorithms (formulas), calculates an assessment of the severity of the functional states of the pilot according to the values of the pulse rate, respiratory rate, body temperature, bioelectrical activity of the brain and humidity of the skin of the pilot, taking into account temperature and air humidity [algorithms are presented, for example, in Ushakov I.B. ., Bogomolov A.V., Kukushkin Yu.A. Patterns of functional states of the operator. M.: Nauka, 2010. 390 p.];

gives a signal that determines the mode of illumination of the three-mode light indicator, writes information to a drive with non-volatile memory;

generates speech information that is presented to the pilot through the speaker.

The health indicator connected to the microcomputer shows the correct (green glow) and faulty (red glow) status of the controller.

The information on the display and the current glow of the indicator are updated at the command of the microcomputer located in the case.

Using the claimed controller, the pilot is provided with information about the current psycho-physiological state (about the severity of functional states). The dynamics of changes in the psycho-physiological state is stored in a drive with non-volatile memory (can be used if necessary to analyze the dynamics of the integral indicator of the psycho-physiological state).

The controller body is made in a dust and moisture protective, shockproof, fire and explosion-proof design, which ensures its safe use.

By combining in one device all sensors of information about the functional states of the pilot with the ability to receive and process information in real time, the claimed technical result is achieved.

Thus, the purpose of the application of the claimed invention is achieved.

The described elements of the inventive controller are functionally interconnected, and the totality of its essential features is unknown from the prior art - that is, the inventive controller is a new technical solution.

Claims (14)

An intelligent controller for the attention reserves of a helicopter pilot, characterized in that its body is made in the form of a black cylinder with a base radius of 500 to 600 mm, a power on/off button, a health indicator and a mount are built into the front part of the lower edge of the case, on the front part of the upper face of the case along the radii dividing its upper face into three equal sectors, white lines with a thickness of 1.5 to 2 mm are applied, in the front part of the upper face of the housing there are built-in three glowing red, yellow and blue indicators with a diameter of 5 to 10 mm, located in the centers of the radii, which are the bisectors of the sectors of the upper face of the housing, moreover, the indicators are connected to a microprocessor located inside the case, to which a power source, a wireless interface unit and a storage device with non-volatile memory are connected, and a control panel made in the form of a joystick and a bioradar are connected to the microprocessor through holes in the side face of the case, characterized in that: a speaker and a three-mode light indicator are mounted in the side surface of the case flush with its surface and connected by wires to the microcomputer; made with the possibility of bidirectional exchange of information with sensors built into the pilot's equipment for pulse rate, respiration rate, body temperature, skin moisture and bioelectrical activity of the human brain; the case is made in a dust and moisture protective, shockproof, fire and explosion-proof design; an air temperature sensor, an air humidity sensor and a service indicator connected to the microcomputer are mounted in the side surface of the case flush with its surface and connected by wires to the microcomputer, and the microcomputer is made with the following capabilities: adaptive control of the frequency of polling sensors built into the pilot's equipment, and calculating the assessment of the severity of the functional states of the pilot according to the values of air temperature, air humidity, pulse rate, respiration rate, body temperature, skin moisture and indicators of bioelectrical activity of the pilot's brain.