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Model simulation using SIMIT
Váňa, Dominik ; Pásek, Jan (referee) ; Arm, Jakub (advisor)
This bachelor's thesis is focused on simulating a technological proces. The teorethical part of the text deals with the simulation tools available on the market. Special attention is paid to SIMIT tool, which is a complex solution for simulating processes. The thesis describes the basic control and the procedure of creation in this tool. The theoretical analysis presents the possibilities of its extension with additional libraries. It contains a brief description about these libraries, which provide much more simulation options. SIMIT is a virtual commissioning tool, a process design approach that is used to simulate a virtual factory model, test it, and debug it before it is deployed. This is a cost-effective and timesaving approach. In the practical part of the thesis two simulators were created with the SIMT tool, each of which simulates an excercise from the subject „Programmable logigs controllers“ (BPGA). The thesis presents model schemes of simulated processes that replace the real physical model. The results of the work are the created simulators, descriptions of their operation and valuation of their features and the properties of the SIMT program itself.
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Testbed for virtual commissioning of PLC system
Nosek, Jakub ; Dvorský, Petr (referee) ; Arm, Jakub (advisor)
This work deals with the creation of a testbed for the virtual commissioning of a PLC system in the Unity environment using the Game4Automation tool, where the simulation will take place. The PLC system will be from Siemens. In the future, a fully functional testbed will simulate the production process and, depending on its behavior, change the parameters of the PLC program or even modify the program itself. Within this work, the main task was to create a suitable data structure and at the same time a functional communication module for connecting the simulation with a future application with an optimization algorithm. We managed to create a functional monitoring of the simulation in its own data structure and a functional sending to the server containing the monitored data, the principle of which guarantees the preservation of all data, regardless of the speed of communication between environments. The simulation monitoring is very detailed and was able to reliably record all collisions with the monitored elements. At the same time, a PLC process program, a redesigned simulation program in Unity and a new REST-API server with a data structure in JSON format were created in this work.
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Testbed for virtual commissioning of PLC system
Nosek, Jakub ; Dvorský, Petr (referee) ; Arm, Jakub (advisor)
This work deals with the creation of a testbed for the virtual commissioning of a PLC system in the Unity environment using the Game4Automation tool, where the simulation will take place. The PLC system will be from Siemens. In the future, a fully functional testbed will simulate the production process and, depending on its behavior, change the parameters of the PLC program or even modify the program itself. Within this work, the main task was to create a suitable data structure and at the same time a functional communication module for connecting the simulation with a future application with an optimization algorithm. We managed to create a functional monitoring of the simulation in its own data structure and a functional sending to the server containing the monitored data, the principle of which guarantees the preservation of all data, regardless of the speed of communication between environments. The simulation monitoring is very detailed and was able to reliably record all collisions with the monitored elements. At the same time, a PLC process program, a redesigned simulation program in Unity and a new REST-API server with a data structure in JSON format were created in this work.
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Model simulation using SIMIT
Váňa, Dominik ; Pásek, Jan (referee) ; Arm, Jakub (advisor)
This bachelor's thesis is focused on simulating a technological proces. The teorethical part of the text deals with the simulation tools available on the market. Special attention is paid to SIMIT tool, which is a complex solution for simulating processes. The thesis describes the basic control and the procedure of creation in this tool. The theoretical analysis presents the possibilities of its extension with additional libraries. It contains a brief description about these libraries, which provide much more simulation options. SIMIT is a virtual commissioning tool, a process design approach that is used to simulate a virtual factory model, test it, and debug it before it is deployed. This is a cost-effective and timesaving approach. In the practical part of the thesis two simulators were created with the SIMT tool, each of which simulates an excercise from the subject „Programmable logigs controllers“ (BPGA). The thesis presents model schemes of simulated processes that replace the real physical model. The results of the work are the created simulators, descriptions of their operation and valuation of their features and the properties of the SIMT program itself.
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