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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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Integration of Simulator in AAS for Heat Transfer Station
Černocký, Petr ; Jirsa, Jan (referee) ; Arm, Jakub (advisor)
This work examines today's modern methods of production management, without which the entire Industry 4.0 phenomenon would not be possible. The main focus of this work is the Asset Administration Shell and the integration of models and simulations into it. Furthermore, research is carried out in the area of modeling and visualization of production and production processes, which is also provided with an example of communication between the visualization software UNITY and the calculation software Matlab. From the analysis, the most suitable software is also selected for the final implementation. Furthermore, there is a proposal for the integration of the simulator into AAS and then its practical implementation. At the same time, the entire designed system with an integrated simulator is evaluated here.
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Asset Administration Shell implementation
Maslowski, Jakub ; Marcoň, Petr (referee) ; Benešl, Tomáš (advisor)
This master's thesis builds upon the author's bachelor's thesis and gradually summarizes insights regarding Industry 4.0, Digital Twins, and primarily AAS. It focuses on describing AAS with regard to the necessary compromises from the theoretical concept of AAS to its practical implementation in the manufacturing process. The extensive practical part deals with the implementation of AAS in decentralized production into Siemens S7-1500 series PLC systems with OPC UA servers, including an individual solution for prioritized queue application. The counterpart representing products is a central AAS Hub Client implemented in Python. The results are presented in the form of testing on a network of 29 virtual PLCs.
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Current trends in enterprise resource planning systems in the era of 4.0
KARLÍČEK, Pavel
This thesis analyses current trends in ERP systems from three perspectives. The first perspective is the mapping of scientific articles dealing with the given issue and the classification of the most frequently researched trends in Industry 4.0. Next view is the outlook of analytical companies on the most current directions of development in corporate information systems. Finally, the last perspective is the view of the customers themselves, i.e. key users of ERP systems, who are represented in the survey by local administrators. In the conclusion, individual points of view are compared and evaluated. Research, calculations and graphs point to the fact that the greatest development potential in ERP systems is the integration of artificial intelligence, while other trends have already exhausted their potential to a certain extent.
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Using Industry 4.0 principles for mobile warehouse design
Eisenwort, Lukáš ; Zimáková, Jana (referee) ; Binar, Tomáš (advisor)
The aim of this diploma thesis is to apply industry 4.0 principles for designing a mo-bile warehouse. The first section contains the literary research, which deals with industry 4.0 in logistics. Next part deals smart warehouses and military warehouses. Analysis of the current state of the warehouse follows, technologies and processes in the military warehouse to be exact. Afterwards, the automation design of this warehouse is addressed. Both the current and the automated states are compared using the Saaty method. Finally, the photovoltaic system is designed.
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Virtual commissioning of automatic welding robot guidance
Podolák, Petr ; Vetiška, Jan (referee) ; Szabari, Mikuláš (advisor)
Automatic guidance of welding robots is an important step in the automation of production processes. Virtual commissioning enables a preliminary preview of the operation of the robotic workplace. In the initial project phase, it provides valuable information for implementation decisions. The goal of this thesis is to first describe the current state of the field, analyse a specific problem, and then carry out the virtual commissioning. For virtual commissioning, describe the individual steps of this process and, at the end, recommend appropriate procedures.
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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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Human Resource Management in Context of Industy 4.0 in Manufacturing
KODATOVÁ, Lucie
The topic of this bachelor thesis is human resource management in the context of Industry 4.0 in manufacturing. The aim is to evaluate the system and changes in human resource management in the context of Industry 4.0 in manufacturing and to propose changes leading to a better readiness of the human resource management system for Industry 4.0. These objectives were achieved through a questionnaire survey conducted in 96 manufacturing companies in the Czech Republic. This questionnaire was created by compiling theoretical background. The questionnaire survey contained 17 questions focused mainly on the current state of human resource management in the context of Industry 4.0 - specifically on HRM digitalization in the manufacturing sector in the Czech Republic. The questionnaire was distributed electronically (Google Docs) among a wide range of manufacturing enterprises in the Czech Republic in order to obtain representative data. The collected data was processed and analysed using descriptive statistics in Microsoft Excel. Further, statistical processing of the data was done where the hypotheses were tested using t-test and chi-square test. After summarizing the results, specific suggestions and recommendations were made for manufacturing companies leading to better readiness of the HRM system for Industry 4.0 in the context of HRM digitalization.
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The level of selected soft skills among students of economics programmes of universities
ČEČKOVÁ, Nikola
This bachelor thesis focuses on the level of selected soft skills among students of economic fields of universities. The aim of the bachelor thesis is to analyse the selected soft skills of students of economics programmes in universities, to evaluate the level of these competences and propose recommendations for their development in university students in the context of Industry 4.0. The thesis presents the theoretical background related to the issue of understandning the concept of competences and also defining the concept of Industry 4.0. These theoretical insights are then used for the questionnaire survey and the subsequent analytical part, which deals with the analysis of the level of selected soft skills in students. The thesis concludes with an evaluation of the level of selected soft skills as well as a proposal of recommendations for their development in the context of Industry 4.0.
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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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