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Industry 4.0 Asset Administration Shell design
Tkadlec, Prokop ; Jirsa, Jan (referee) ; Kaczmarczyk, Václav (advisor)
The aim of this work is to create a simulation model that will correspond to the real TestBed Barman network, with the help of AAS data model devices. The simulation model will be created using the OMNeT++ simulator. The thesis describes the concepts of Industry 4.0, especially AAS and the individual cells of TesBed Barman. Afterwards the AAS models of production cells and intelligent products created by using the AASX Package Explorer program are described. The practical part describes the created TestBed simulation model and its individual modules that were created. Two simple simulation scenarios are then described for the simulation model together with the variables to be monitored.
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Realtime system for web analytics
Hrubý, Otto ; Kaczmarczyk, Václav (referee) ; Holek, Radovan (advisor)
This thesis deals with the design of a realtime system for web analytics. The aim of this work was to implement this system. At first, research was conducted on existing tools and suitable technologies, based on which the system architecture was designed. Data from websites are collected by tagging the pages with JavaScript. The collected data are sent to the public cloud, where the system is deployed. The system processes the data, stores them in a database and makes it accessible to users through an information system.
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MES for Industry 4.0 demonstrator
Martiník, Tomáš ; Arm, Jakub (referee) ; Kaczmarczyk, Václav (advisor)
This bachelor's thesis deals with manufacturing systems, their functionalities and their role in Industry 4.0. This thesis focuses on the design and implementation of the MES solution for the Industry 4.0 demonstrator. Research of available open-source systems is conducted and, based on the requirements for the system, one solution is selected, modified for the demonstrator's needs and integrated into its system.
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PLC process control of more tanks based on standard S88
Dizorzi, Matúš ; Kaczmarczyk, Václav (referee) ; Pásek, Jan (advisor)
Main task of this work is to create a solution to PLC process control of more tanks based on ISA S88 standard. This work will be used as a study material to laboratory exercises during master’s study. First part of this work deals with the ISA S88 standard. The second part deals with analysis of created program from its most basic parts to complete functional tank. Conclusion of this work is to confirm functionality of this program by simulated demo version – visualisation in WinCC.
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Hardware and software of a smart home appliance
Blaha, Vít ; Kaczmarczyk, Václav (referee) ; Fiedler, Petr (advisor)
Nowadays, the interest in smart appliances, which enable consumption reduction or consumption shifting approach, grows up. Such appliances can react to actual situation in the distributional network. From the energy distributor point of view, the activity of these appliances brings improvement of stability in the distribution network, while for the end customer there is possibility of the saving money. This thesis describes a transformation of standard fridge to smart fridge controlled by microcomputer Raspberry Pi. The smart fridge can communicate with supervisor system and according to its instructions change its behavior (temperature set point). The appliance can be manually controlled by a group of buttons, while its state can be visualized on the alphanumeric display. Last but not least way to control the appliance is through a web interface. The thesis also describes design of printed circuit board (PCB), which is designed for connection of all necessary sensors and actuators to Raspberry Pi. Software equipment is designed in the C++ program language.
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Design of mechanical, electrical construction and software equipment of autonomous cell "Soda maker" for Industry 4.0 testbed.
Dvorský, Petr ; Baštán, Ondřej (referee) ; Kaczmarczyk, Václav (advisor)
The objectives of this bachelor thesis are design and realization of an autonomous cell for soda production for the testbed of Industry 4.0. First, basic construction principles of the autonomous cell are outlined. Then, the mechanical design, the hydro pneumatic system design, the electrical design and the software design are described. The drawing of the mechanical construction of the cell was devised using CAD NX 12 (Siemens PLM software). Most of the 3D printed parts were printed on 3D printer Tarantula. Hydro-pneumatic system was designed in SMC PeuDraw 2.8 for maximal working pressure of 8.2 Bar. Electrical documentation was created in electrical CAD software WSCAD. For control and communication, the autonomous cell is equipped with PLC SIMATIC S7-1200 (CPU 1214C DC/DC/DC), HMI panel (SIMATIC HMI KPT400 BASIC) and Linksys SD205 switch. The source code for control PLC and HMI was designed in TIA Portal software.
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Design and virtual simulation of single-purpose machine
Klement, Petr ; Husák, Michal (referee) ; Kaczmarczyk, Václav (advisor)
The work deals with the design, simulation and construction of a single-purpose machine. The design is to deal with the robotic operation of the coffee machine. The aim of this work is to get acquainted with the design software Siemens NX and its extension packages and with the program Process Simulate, where the designed single-purpose machine dealing with robotic operation of the coffee machine will be designed, simulated and then made machine. In this work I managed to model all the necessary parts that I use in machines such as coffee maker, mug, mug holder, mug turntable, gripper, mug stand, control box and handles for locking individual parts in the cell. Everything was arranged in a cell and then the phases of storing the cups in a shelf, making coffee in a cup from a coffee machine and moving to a dispensing window were simulated.
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Simulation of production line
Kutík, Jakub ; Kaczmarczyk, Václav (referee) ; Pásek, Jan (advisor)
The aim of this thesis is to create a custom application to simulate production lines. The first part explains the main reasons, benefits and current trends in the field of virtual commissioning and describes several simulation tools and engineering tools from Siemens. The second part is devoted to a detailed description of features, capabilities and application interface of the PLCSIM Advanced simulation tool. The third part is devoted to design and realization of the custom simulation application, which can be used for create conveyor lines and validate user PLC program in cooperation with PLCSIM Advanced tool. This simulator was created using Unity3D game engine and C# programming language. In the last part of the thesis, a simple simulation task is created in the simulator and is tested using PLC program and visualization created in the TIA Portal engineering framework.
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Control of glasshouse
Czudek, Aleš ; Kaczmarczyk, Václav (referee) ; Štohl, Radek (advisor)
This report deals with a solution of the student project called Greenhouse controlling. The aim was to equip a real glasshouse with application technology using electronic control system Siemens and bus technology AS-Interface. You can find here a description of the function of the glasshouse, used hardware, technological scheme and identification of controlled system.
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Automatic Creation of PLC Program using TIA Portal Openness
Janeček, Pavel ; Kaczmarczyk, Václav (referee) ; Arm, Jakub (advisor)
This bachelor's thesis deals with automatic generation of PLC program with visualization for model 'Kuličky' through TIA Portal Openness. For this purpose a desktop application "TIAOpennessGenerator", by using programming language C#, was developed. This application generates PLC program according to suitably designed XML schema which works as a "recipe". Both schema and application are written in order to make data generating as universal as possible.
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