Treffer: DEVELOPMENT AND IMPLEMENTATION OF THE INDISTINCT LOGIC BLOCK OF THE MAXIMUM THERMAL FIRE DETECTOR USING THE ARDUINO BOARD ; РОЗРОБКА ТА РЕАЛІЗАЦІЯ БЛОКУ НЕЧІТКОЇ ЛОГІКИ МАКСИМАЛЬНОГО ТЕПЛОВОГО ПОЖЕЖНОГО СПОВІЩУВАЧА З ВИКОРИСТАННЯМ ПЛАТИ ARDUINO

Introduction. Heat detectors are one of the best ones that detect burning fires. They are the simplest, not expensive, cheap in maintenance, very reliable, have good resistance to various interferences compared to other types of detectors. However, they have the highest inertia of operation. There are some sites where the burning fires occur or where there exists significant pollution. Then heat detectors are indispensable in use. In general, heat fire detectors are more resistant to adverse environmental conditions compared to other types of detectors. It is possible to reduce the time of fire detection by heat detectors due to the use of the latest technologies in the development of algorithms based on fuzzy logic, neural networks and modern microcontrollers. These mathematical devices allow to improve technical characteristics of heat detectors and to reduce their inertia of operation. They can also reduce the error of the fire alarm and accurately detect fires.Purpose. The research aims to develop a block of fuzzy logic of the static heat detector, with its possible realization in a microcontroller based on the Arduino board.Results. The easiest way to visualize first-order Sugeno systems is to assume that each rule is a determination of the location of a moving point. That is, single-output peaks can move linearly in the output space, depending on what is the input signal. It also tends to make such systems very compact and efficient.Further application of Arduino boards to develop and research a fuzzy block of a static heat detector based on fuzzy logic requires one very important step - to disassemble the elementary components and explore the Fuzzy Logic Toolbox. In the future, it will be used as a reference for the development of the program for Arduino. In the case of software realization of a fuzzy block in the Arduino software environment, the best results are obtained when membership functions of the trian-gular and trapezoidal shape are used. In the Fuzzy Logic Toolbox MATLAB/Simulink package, a ...