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Autonomous Beehive
Václavič, Jiří ; Nosko, Svetozár (referee) ; Smrž, Pavel (advisor)
The aim of this work was to construct an electronically controlled beehive. A crucial element of the project was to conduct thorough research on existing IoT and other electronic solutions used in beekeeping. It was essential to analyze the available hardware and software technologies that could be applied to the given issue and select those most suitable for this purpose. Based on the acquired knowledge, individual parts of the beehive were designed and manufactured using a 3D printer. These parts were specially modified to enable the integration of various sensors. An integral part of the solution is also the ventilation system and the custom design of motorized beekeeping frames, which allow for automatic honey collection. Sensor outputs and other data needed to inform the beekeeper about the colony's status are displayed on a web server, to which they are sent via MQTT communication.
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Efficient use of renewable energy sources in a residential building
Burčo, Matúš ; Paluřík, Pavel (referee) ; Jablončík, Lukáš (advisor)
The thesis focuses on the design and implementation of an optimization algorithm for an energy management system in apartment buildings. The thesis analyzes current technological solutions for smart home energy management, including open-source and commercial systems. It further considers the use of containerization technologies for the implementation of the algorithm in practice. The second chapter focuses on renewable energy sources such as solar, wind and hydro power and discusses methods for their efficient integration into energy systems. The third chapter describes specific system elements, such as photovoltaic panels and battery storage, in the context of a residential building. The fourth chapter describes the development of the optimization algorithm, its testing and integration with data collection and visualization platforms. The aim of the thesis is to show how the system can be used to make efficient use of the available energy resources and thus reduce the energy costs of the building.
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Web Intercase for Building Control System with BACnet protocol
Kretek, Tomáš ; Friml, Dominik (referee) ; Václavek, Pavel (advisor)
This bachelor thesis analyzes the basic features of the BACnet protocol, which is followed by visualization platforms and tools ThingsBoard, OpenHAB and Node-RED. The BAC0 library and the BOSS Simulator program are selected for the BACnet device simulation. The ThingsBoard platform is used to demonstrate the functionality with the BAC0 library, which allowed the design of a two-room model with heating and heat transfer through the walls. At the end of the work, the operation of the ThingsBoard platform on a Raspberry Pi computer is evaluated.
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System of autonomous management of the greenhouse complex
Zíka, Radim ; Benešl, Tomáš (referee) ; Bradáč, Zdeněk (advisor)
Master‘s thesis deals with a design of greenhouse control system using IoT technologies. The aim of this work is to design a control system block diagram and to design system’s hardware parts. Theoretical part of the thesis focuses on greenhouse systems characterisitcs, survey of greenhouse systems available on the market, survey of suitable sensors and on the basic theory of low power system design. Further in the practical part the designed concept of the control system is described along with selected hardware, the process of hardware design, the printed board design and the design of its control software. The last part of the thesis is focused on cloud platforms, their literary research and more detailed specification of used ThingsBoard platform.
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Home weather station
Macek, Jan ; Štohl, Radek (referee) ; Šedivá, Soňa (advisor)
The thesis deals with the design of a home weather station. This work aims to create a home weather station that measures temperature, humidity, pressure, precipitation, wind direction and speed. This thesis examines the problems of meteorology, followed by an introduction to the available weather stations on the market and defining the requirements for the proposed weather station. Then the actual hardware design, structural design and software implementation is created. The conclusion of the thesis represents the evaluation of the achieved results.
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Web Intercase for Building Control System with BACnet protocol
Kretek, Tomáš ; Friml, Dominik (referee) ; Václavek, Pavel (advisor)
This bachelor thesis analyzes the basic features of the BACnet protocol, which is followed by visualization platforms and tools ThingsBoard, OpenHAB and Node-RED. The BAC0 library and the BOSS Simulator program are selected for the BACnet device simulation. The ThingsBoard platform is used to demonstrate the functionality with the BAC0 library, which allowed the design of a two-room model with heating and heat transfer through the walls. At the end of the work, the operation of the ThingsBoard platform on a Raspberry Pi computer is evaluated.
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System of autonomous management of the greenhouse complex
Zíka, Radim ; Benešl, Tomáš (referee) ; Bradáč, Zdeněk (advisor)
Master‘s thesis deals with a design of greenhouse control system using IoT technologies. The aim of this work is to design a control system block diagram and to design system’s hardware parts. Theoretical part of the thesis focuses on greenhouse systems characterisitcs, survey of greenhouse systems available on the market, survey of suitable sensors and on the basic theory of low power system design. Further in the practical part the designed concept of the control system is described along with selected hardware, the process of hardware design, the printed board design and the design of its control software. The last part of the thesis is focused on cloud platforms, their literary research and more detailed specification of used ThingsBoard platform.
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