Advances In Cyber-Physical Systems
Permanent URI for this communityhttps://ena.lpnu.ua/handle/ntb/33988
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Item A Computer System for Collecting Data on Temperature and Humidity on Premises(Видавництво Львівської політехніки, 2023-02-28) Kalytka, Andrii; Yurchak, Iryna; Lviv Polytechnic National UniversityNowadays, it is impossible to do without cli- mate control in enterprises, especially when these are en- terprises that manufacture products that can become unus- able under the influence of environmental factors such as high or low temperature, humidity, and dryness. Basically, in most enterprises, finding a solution to this issue is re- quired by state standards, which cannot be ignored, be- cause it can harm people. The problem of building a computer system for collect- ing data on the temperature and humidity of premises has been considered. The main means of indoor systems for collecting data on temperature and humidity have been defined, and their main disadvantages and advantages have been highlighted. The basic principles of operation of the new system have been developed. The main nodes required for system implementation have been given. Hardware components for the implementation of the new system have been put forward. The structural scheme of the computer system of protection of living space has been developed and considered. The practicality and expediency of developing a new system have been substantiated. The general algorithm of system operation has been developed and considered.Item Microprocessor subsystem of the smart house to control the multichannel irrigation of the room plants(Видавництво Львівської політехніки, 2022-06-06) Borak, Taras; Kushnir, Dmytro; Paramud, Yaroslav; Lviv Polytechnic National UniversityThis article develops the principles of building an intelligent home microprocessor subsystem to control the multi-channel irrigation of houseplants. The relevance of this topic has also been substantiated. Currently, there is a small number of devices in demand with a comfortable user interface and timer, which allows to adjust the watering at any time of day. The advantages over other available analogs and the need to create a customized system have been investigated. The developed structuralschematic diagram of the irrigation control system of houseplants based on the Arduino Nano microcontroller and a diagram of the algorithm of the subsystem has been proposed and given. As a result, there has been an example of the development of a subsystem that aims to improve and simplify the care of houseplants, which will save time and water resources.