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Smart Home Control
Fučík, Jan ; Beran, Vítězslav (referee) ; Zemčík, Pavel (advisor)
This thesis summarizes the subject of intelligent homes and describes commonly used standards and commercial solutions on the market. The thesis covers the design of a low-cost and easy to use smart home system which can be managed over the internet, uses a genetic algorithm for heating regulation optimization and its central computing unit is a low-cost, embedded device with low power consumption. The functionality of the system is verified on a practical application of heating regulation in a house. The efficacy of the system for energy savings is shown; it is based on measured data statistics.
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Design of Smart Home Control System
Valičková, Monika ; Petr,, Komárek (referee) ; Ondrák, Viktor (advisor)
This Bachelor Thesis focuses on the selection and design of a Smart Home Control System for a planned superstructure of an apartment building in Brno. It's based on an analysis of the Architectural design of one of the apartments and investors requirements. The thesis gives an overview of suitable systems, which are currently available on the market and compares them. It also describes functions of the selected system and its parts, which are necessary for the implementation. Both technical documentation and cost analysis are also part of the thesis.
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The electric car as part of a smart home
Peichl, Ondřej ; Ušiak, Michal (referee) ; Štětina, Josef (advisor)
This thesis provides an overview of technologies that can be a part of an electric car. These technologies include Vehicle to Grid, Vehicle to Building, Vehicle to Home, etc. The principle, properties, possibilities of development and integration in the Czech Republic and in the world will be described for these technologies. The second part of the thesis will deal with the connection of an electric car to a smart home and its cooperation with other components of the smart home, such as home photovoltaic power plant, control system or wallbox. At the end of the thesis is designed a specific smart house, which was calculated the consumption of electricity for the household, for the electric car and also how much of this consumption can cover the home photovoltaic power plant.
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Control of model smart house
Běloušek, Petr ; Jirgl, Miroslav (referee) ; Štohl, Radek (advisor)
This thesis deals with control of smart houses. The second chapter contains acquaintance with current model of smart house, PLC and programming enviroment from B&R company. The last chapter is devoted to projecting of heating control and shade system control.
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Smart Home Solution Based on ESP Modules and Raspberry Pi
Bartoš, Martin ; Smrčka, Aleš (referee) ; Janoušek, Vladimír (advisor)
Nowadays, the world of smart devices in households is growing significantly, where the devices communicate with each other and make people's lives easier. However, a major problem with the purchase of these devices to common households is the high price and compatibility of those products from one vendor. The goal of this bachelor thesis is to create a comprehensive low-cost smart home solution that the user will be able to manage without much effort. This solution is implemented by the latest technologies and tools.
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Management of Heating Energy at Home
Dohnal, Stanislav ; Grepl, Jan (referee) ; Kříž, Jiří (advisor)
The aim is to adapt the old heating system so that the new system will meet the needs of users and facilitate control of system. The new heating system can independently control heating automatically. Its important part is remote access to system control. The user always has up-to-date information and can adjust the heating to suit his needs.
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Home Automation Based on Arduino/WeMos/RPi Platform
Bubeníček, Daniel ; Materna, Zdeněk (referee) ; Kapinus, Michal (advisor)
This thesis deals with design and implementation of home automation system based on Arduino, WeMos and Raspberry Pi platforms. Twelve modules for home automation were designed, which can be easily built on these platforms. The implemented prototype allows to control heating system and LED light, track temperature and humidity, detect newly connected Wi-Fi devices, human motion, door opening, create custom automation rules etc. The system uses pre-existing household equipment. The new hardware used in prototype cost only 1.600 CZK.
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A Practical Panel for Smart Home Wiring
Pospíšil, Josef ; Steinbauer, Miloslav (referee) ; Kadlec, Radim (advisor)
This bachelor thesis deals with intelligent installations in buildings using centralised system inels. Individual components of this system, such as the central unit, power supply and separators, are described. Used busbars and their connection possibilities are mentioned in the next part together with different ways of access to the central unit. The thesis also includes the visualisation of the demonstration panel, which will be used as a model in laboratories. Next part consists of the basic functions simulation and verification of their functionality. Finally the formation of the panel together with its connection and programming is described. The panel documentation is enclosed at the end of the thesis.
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IoT with Raspberry Pi, Mobile Phone, and Samsung Galaxy Watch
Koudelka, Jakub ; Kapinus, Michal (referee) ; Zemčík, Pavel (advisor)
The goal of this bachelor's thesis was to design and implement smart home system. System can be used by user oriented applications for mobile phone and smart watch. The thesis analyses an existing solutions and technologies used for smart homes. Based on analysis is determined technical product specification, which is used for implementation of system and application. Product of thesis is functioning system manageable by Android application and application for Galaxy Watch.
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Smart button for home automation
Matula, Ondřej ; Bradáč, Zdeněk (referee) ; Benešl, Tomáš (advisor)
This thesis deals with the design of a smart button which will be used as a periphery to a smart home. The smart button combines the functions of the standard light switch with the ability to control other devices. The smart button communicates via a wired CAN or PWI bus. Hardware designing process which include selection of a suitable components and most appropriate technical solutions is discussed. Another part of thesis deals with implementing a firmware that allows a smart button to communicate with the master system.
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