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Control of the Collaborative Robot Universal Robots UR10e through PLC from Siemens Company
Štěrbová, Nina ; Lacko, Branislav (referee) ; Kůdela, Jakub (advisor)
This work deals with system integration and collaborative robotics in the context of Industry 4.0, focusing on the optimization of collaborative robots. The work includes an analysis of the current state of the EDUset ONE robotic cell and the selection of a~communication protocol for the system integration of the UR10e collaborative robot through a programmable logic controller (PLC) from Siemens. The main goal is to design and implement a modular library for control and data collection, and further to design a program for static optimization of the robot’s trajectory with regard to minimizing the path and energy. The functionality of the proposed solution is verified on a real robotic cell.
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Human-machine collaboration - using haptic device
Kotrba, Tomáš ; Parák, Roman (referee) ; Juříček, Martin (advisor)
The bachelor's thesis focuses on the integration of the SpaceMouse Module haptic device with the collaborative robotic arm UR3 CB3 through the development of a software application in Python. The aim is to create software that enables smooth communication between these devices and implements methods for processing and filtering signals obtained from the SpaceMouse. The theoretical part includes the basics of collaborative robotics and haptic technologies, explaining their principles and describing the current state. The practical part details the process of integrating the UR3 cobot and the SpaceMouse haptic device. It presents the results of experiments in selecting a suitable filter for data filtering from the SpaceMouse.
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Human-machine collaboration - using speech processing
Kisler, Štěpán ; Hůlka, Tomáš (referee) ; Juříček, Martin (advisor)
This bachelor's thesis focuses on the design and implementation of a voice control system for the UR3 CB series collaborative robot from Universal Robots, aiming to simplify human-robot interaction. The introduction provides an overview of collaborative robotics, including its history, successful applications, and the possibilities of programming collaborative robots. Additionally, it explores speech recognition technology, covering its applications, history, and methods. The practical section compares existing speech recognition systems and selects the most suitable one for robot voice control. It also details the development of a voice control program in Python and the testing of the entire system, both in simulation and real-world conditions in a robotics laboratory.
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Design and implementation of the robotic platform for an experimental laboratory task
Juříček, Martin ; Matoušek, Radomil (referee) ; Parák, Roman (advisor)
Pokročilá robotika se nemusí vždy pouze pojit s Průmyslem 4.0, nýbrž nachází své uplatnění i kupříkladu v konceptu Smart Hospital. Pokrok v této oblasti umocnilo onemocnění koronaviru (COVID-19), přičemž každé ulehčení práce zdravotnímu personálu je vítáno. V rámci této diplomové práce byla navrhnuta a implementována experimentální robotická platforma s hlavní funkcí stěru vzorků z předsíně dutiny nosní. Robotická platforma představuje kompletní integraci softwaru a hardwaru, kde má operátor přístup k webově založené aplikaci a může ovládat řadu funkcí. Opomenout nelze také zvýšenou bezpečnost a kolaborativní přístup. Výsledkem práce je funkční prototyp robotické platformy, který je možné dále rozšiřovat například v podobě použití alternativních technologií, rozšíření bezpečnosti či klinického testování a studie.
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Utilization of Robotic Operating System (ROS) for control of collaborative robot UR3
Juříček, Martin ; Matoušek, Radomil (referee) ; Parák, Roman (advisor)
The aim of the bachelor's thesis is to create a control program, its subsequent testing and verification of functionality for the collaborative robot UR3 from the company Universal Robots. The control program is written in python and integrates control options through the Robotic Operating System, where a defined point can be reached using pre-simulated trajectories of Q-learning, SARSA, Deep Q-learning, Deep SARSA, or using only the MoveIT framework. The thesis deals with a cross-section of the topics of collaborative robotics, Robotic Operating System, Gazebo simulation environment, feedback and deep feedback learning. Finally, the design and implementation of the control program with partial parts is described.
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Human-machine collaboration – using computer vision
Sobotka, Pavel ; Matoušek, Radomil (referee) ; Parák, Roman (advisor)
The main task of this bachelor’s thesis is a realization of application for controlling the robotic arm through the Kinect device. Application is programmed in C# language using Microsoft Visual Studio 2017 integrated development environment. The first part of the thesis deals with the topics of collaborative robotics, computer vision and Kinect device from Microsoft. The second part is about the description of the implementation and testing of the application.
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Design and implementation of the robotic platform for an experimental laboratory task
Juříček, Martin ; Matoušek, Radomil (referee) ; Parák, Roman (advisor)
Pokročilá robotika se nemusí vždy pouze pojit s Průmyslem 4.0, nýbrž nachází své uplatnění i kupříkladu v konceptu Smart Hospital. Pokrok v této oblasti umocnilo onemocnění koronaviru (COVID-19), přičemž každé ulehčení práce zdravotnímu personálu je vítáno. V rámci této diplomové práce byla navrhnuta a implementována experimentální robotická platforma s hlavní funkcí stěru vzorků z předsíně dutiny nosní. Robotická platforma představuje kompletní integraci softwaru a hardwaru, kde má operátor přístup k webově založené aplikaci a může ovládat řadu funkcí. Opomenout nelze také zvýšenou bezpečnost a kolaborativní přístup. Výsledkem práce je funkční prototyp robotické platformy, který je možné dále rozšiřovat například v podobě použití alternativních technologií, rozšíření bezpečnosti či klinického testování a studie.
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Utilization of Robotic Operating System (ROS) for control of collaborative robot UR3
Juříček, Martin ; Matoušek, Radomil (referee) ; Parák, Roman (advisor)
The aim of the bachelor's thesis is to create a control program, its subsequent testing and verification of functionality for the collaborative robot UR3 from the company Universal Robots. The control program is written in python and integrates control options through the Robotic Operating System, where a defined point can be reached using pre-simulated trajectories of Q-learning, SARSA, Deep Q-learning, Deep SARSA, or using only the MoveIT framework. The thesis deals with a cross-section of the topics of collaborative robotics, Robotic Operating System, Gazebo simulation environment, feedback and deep feedback learning. Finally, the design and implementation of the control program with partial parts is described.
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Human-machine collaboration – using computer vision
Sobotka, Pavel ; Matoušek, Radomil (referee) ; Parák, Roman (advisor)
The main task of this bachelor’s thesis is a realization of application for controlling the robotic arm through the Kinect device. Application is programmed in C# language using Microsoft Visual Studio 2017 integrated development environment. The first part of the thesis deals with the topics of collaborative robotics, computer vision and Kinect device from Microsoft. The second part is about the description of the implementation and testing of the application.
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