ПРИМЕНЕНИЕ НЕЧЕТКОЙ ЛОГИКИ В СИСТЕМЕ АВТОМАТИЧЕСКОГО УПРАВЛЕНИЯ СТРЕЛЬБОЙ ПНЕВМОПУШКИ ПРИ ПОЖАРОТУШЕНИИ
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Научный журнал Моделирование, оптимизация и информационные технологииThe scientific journal Modeling, Optimization and Information Technology
Online media
issn 2310-6018

APPLICATION OF FUZZY LOGIC IN THE SYSTEM OF AUTOMATIC CONTROL OF PNEUMATIC GUN SHOOTING DURING FIRE FIGHTING

Migranov A.B.,  Maksyutov I.S. 

UDC 004.92
DOI: 10.26102/2310-6018/2019.24.1.028

  • Abstract
  • List of references
  • About authors

The article describes the obtaining of mathematical model of technical object aircannons on the basis of methods of fuzzy logic. This topic is very relevant, because at the moment none of the existing automatic fire extinguishing systems does not provide a quick and effective elimination of fire with minimal losses. As a device for obtaining information, a thermal imager is used, which records an increase in temperature in the event of a fire and a drop in temperature in the event of a projectile entering the flame core. When the maximum value of temperature there is a change in the values of the launch angle and the control signal, adjusts the value of the pressure exerted on the projectile. Based on the formula for calculating the trajectory of the projectile, logical rules are drawn up, in which the input data are the launch angle and pressure, and at the output – the distance that the projectile will fly. The paper analyzes the characteristics of the behavior of the projectile and the result of its hit the target. On the basis of methods of fuzzy logic control system determines the area of the fire or maximizing the temperatures and calculates the rotation of the gun and distance for firing a projectile. For fire extinguishing installations (air guns) it is proposed to use an automated fire extinguishing control system based on the developed fuzzy rules.

1. Averkin A.N. Nechetkie mnojestva v modelyah upravleniya i iskusstvennogo intellekta [Fuzzy sets in control models and of artificial intelligence]: a textbook / А.Н. Averkin. - Moscow: Kniga po trebovaniyu, 2012. - 312 p.

2. Asadullaev R.G. Nechetkaya logika i neyronnie seti [Fuzzy logic and neural networks]: a tutorial / R.G. Asadullayev. - Belgorod: BelGU, 2017. - 309 p.

3. Konysheva L.K. Osnovi teorii nechetkih mnojestv [Fundamentals of the theory of fuzzy sets: educational allowance]. The third-generation standard / L.K., Konysheva, D.M. Nazarov. - St. Petersburg: Piter, 2011. - 192 p.

4. Yarushkina N.G. Osnovi teorii nechetkih I gibridnih sistem [Fundamentals of the theory of fuzzy and hybrid systems]: textbook / N.G. Yarushkina. - Moscow: Finansi i Statistica, 2014. - 320 p.

5. Fuzzy logic - the mathematical basis. Avialable at: http://basegroup.ru/community/articles/fuzzylogic-math (accessed of 09.11.2018).

6. Maksjutov I.S., Migranov A.B. Matematicheskaja model' ob#ekta upravlenija «sledjashhij jelektroprivod» // Modelirovanie, optimizacija i informacionnye tehnologii. Nauchnyj zhurnal, Tom 6, № 2. – 2018. URL: https://moit.vivt.ru/wpcontent/uploads/2018/04/MaksutovMigranov_2_18_1.pdf (accessed of 09.11.2018).

Migranov Ayrat Barisovich

Email: meleuzzz@gmail.com

Mavlyutov Institute of Mechanics

Ufa, Russian Federation

Maksyutov Ilnur Sintimerovich

Email: abm.imech.anrb@mail.ru

Ufa State Aviation Technical University

Ufa, Russian Federation

Keywords: fuzzy logic, fuzzy system, air gun, fire fighting

For citation: Migranov A.B., Maksyutov I.S. APPLICATION OF FUZZY LOGIC IN THE SYSTEM OF AUTOMATIC CONTROL OF PNEUMATIC GUN SHOOTING DURING FIRE FIGHTING. Modeling, Optimization and Information Technology. 2019;7(1). URL: https://moit.vivt.ru/wp-content/uploads/2019/01/MigranovMaksutov_1_19_1.pdf DOI: 10.26102/2310-6018/2019.24.1.028 (In Russ).

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Published 31.03.2019