|
|
Automated Control and Monitoring of Central Heating for Older Buildings
Mužila, Matej ; Crha, Adam (referee) ; Šimek, Václav (advisor)
The purpose of this thesis is a design of an automated heating regulation system for an old building. The thesis consists of a system architecture design, an implementation of the system, including prototype manufacturing of the required devices, and testing of the whole system in practice, with focus on functionality and efficiency. Several hardware devices were designed and manufactured, for which appropriate controlling software was implemented. The implemented software architecture enables users to control the system using a graphical user interface, and allows for an easy extension of the system. The graphical user interface, which is accessible both locally through a touchscreen and remotely using a web application, enables users to easily configure connected devices and regulated zones, and to set temperature level in the defined zones variably depending on a week day and time. The user interface also provides statistics about the heating system. The implemented automated heating regulation system was successfully tested in real conditions of a flat in a historical building. The system can be extended both hardware-wise and software-wise.
|
|
|
Thermostat on LinkIt Smart Platform
Bartoň, Jan ; Šimek, Václav (referee) ; Vašíček, Zdeněk (advisor)
The bachelor thesis deals with the automation of heating regulation in the household. The goal is to design and implement a prototype of a embedded system to enable the automation of the heating control process with the emphasis on low acquisition costs. The proposed system is used to control the eQ-3 MAX! wireless radiator thermostats. The user interface of the system is the touch screen. As well as iOS mobile application that allow remote control of the system. A prototype of a Wi-Fi sensor is designed and implemented to measure temperature. The work includes hardware and software design of individual parts of the system and their implementation. The resulting system is a good basis for a low-cost system for comprehensive home automation.
|
|
|
Control of inteligent hause
Šála, David ; Pásek, Jan (referee) ; Bradáč, Zdeněk (advisor)
This bachelor thesis deals with control of intelligent house especially from the perspectives of heating, control of the lights and blinds and finally the security system. It focuses on the choice of appropriate hardware and it is description including the chosen platform UniPi Neuron. The middle part of this thesis focuses on the identification of the object, the determination of the corresponding equithermal curves, and the design of heating and boilers regulators. The Matlab / Simulink program was used to demonstrate the functionality of the zone controller for the selected room. The last chapter of this thesis focuses on the description of the Mervis IDE development environment and program created in this. Part of this, is also a demonstration of visualization (HMI), cloud database and the remotely access for the control and management of an intelligent house.
|
|
|
System for Smart Central Heating Regulation
Sikula, Jakub ; John, Petr (referee) ; Hynek, Jiří (advisor)
The goal of this bachelor's thesis was to design and implement a central heating control system with a focus on the control of individual rooms. This system is remotely controlled by the Logimic Smart City platform and automatically regulates the heating in an adaptive way. This method brings significant savings to households that are equipped with such a system. This solution differs from existing solutions mainly in that we enter the desired room temperature into the system and the system controls the heating elements so that they reach and maintain the desired room temperature.
|
|
|
Automated Control and Monitoring of Central Heating for Older Buildings
Mužila, Matej ; Crha, Adam (referee) ; Šimek, Václav (advisor)
The purpose of this thesis is a design of an automated heating regulation system for an old building. The thesis consists of a system architecture design, an implementation of the system, including prototype manufacturing of the required devices, and testing of the whole system in practice, with focus on functionality and efficiency. Several hardware devices were designed and manufactured, for which appropriate controlling software was implemented. The implemented software architecture enables users to control the system using a graphical user interface, and allows for an easy extension of the system. The graphical user interface, which is accessible both locally through a touchscreen and remotely using a web application, enables users to easily configure connected devices and regulated zones, and to set temperature level in the defined zones variably depending on a week day and time. The user interface also provides statistics about the heating system. The implemented automated heating regulation system was successfully tested in real conditions of a flat in a historical building. The system can be extended both hardware-wise and software-wise.
|
|
|
Thermostat on LinkIt Smart Platform
Bartoň, Jan ; Šimek, Václav (referee) ; Vašíček, Zdeněk (advisor)
The bachelor thesis deals with the automation of heating regulation in the household. The goal is to design and implement a prototype of a embedded system to enable the automation of the heating control process with the emphasis on low acquisition costs. The proposed system is used to control the eQ-3 MAX! wireless radiator thermostats. The user interface of the system is the touch screen. As well as iOS mobile application that allow remote control of the system. A prototype of a Wi-Fi sensor is designed and implemented to measure temperature. The work includes hardware and software design of individual parts of the system and their implementation. The resulting system is a good basis for a low-cost system for comprehensive home automation.
|
|
|
Control of inteligent hause
Šála, David ; Pásek, Jan (referee) ; Bradáč, Zdeněk (advisor)
This bachelor thesis deals with control of intelligent house especially from the perspectives of heating, control of the lights and blinds and finally the security system. It focuses on the choice of appropriate hardware and it is description including the chosen platform UniPi Neuron. The middle part of this thesis focuses on the identification of the object, the determination of the corresponding equithermal curves, and the design of heating and boilers regulators. The Matlab / Simulink program was used to demonstrate the functionality of the zone controller for the selected room. The last chapter of this thesis focuses on the description of the Mervis IDE development environment and program created in this. Part of this, is also a demonstration of visualization (HMI), cloud database and the remotely access for the control and management of an intelligent house.
|
guest ::
