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FLUID HANDLING USING THE ABB YUMI PLATFORM
Červenka, Roman ; Parák, Roman (referee) ; Matoušek, Radomil (advisor)
The goal of this bachelor thesis is to design and create program for laboratory manipulation. The robot will handle beakers. For further presentation of possible usage of ABB YuMi, a program for drink preparation was made. For robot programming, RobotStudio was used, in which was used RAPID programming language. To understand the philosophy of using RobotStudio to program robots, was also one of the goals of this work. At the end the created programs were tested in robotics laboratory and the results of this work were evaluated.
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Collaborative Robots in Industry
Sláma, Martin ; Vetiška, Jan (referee) ; Knoflíček, Radek (advisor)
The bachelor thesis is focused on the field of collaborative robotics. First, collaborative robots and their specifications are described. Next are presented the most famous collaborative robots on the market and their parameters. In another chapter, examples of successful applications are given. Finally, the safety and programming of collaborative robots is described.
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Collaborative robot UR5e interface library for Matlab/Simulink
Sladký, Adam ; Adámek, Roman (referee) ; Brablc, Martin (advisor)
This thesis describes the process of creating a function library which will enable easy control of a UR5e robot and its model using the Matlab environment. It was made using object based programming. Library functions were designed for two separate modes, each controlling either the robot or the model. Functions for RG2 gripper control and for collision detection, which prevents the robot from colliding with itself, are also part of the library. The resulting library is designed in a way that allows the robot to be easily used for measuring, project work or as a teaching tool by simply adding its functions to already existing data processing scripts or those performing other calculations. Finally, three example tasks are presented to demonstrate the application of this library.
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Collaborative robot control by PLC
Novotný, Jiří ; Benešl, Tomáš (referee) ; Macho, Tomáš (advisor)
This bachelor thesis deals with the control of a collaborative robot using a PLC. To implement this work is used collaborative robot YuMi from ABB and PLC from Siemens of latest series S7-1500. We will get acquainted with products which have been used in project and with the development environment for PLC (TIA Portal) and for robot (RobotStudio). We define the requirements for the communication interface between the robot and the PLC. We will describe a demonstrating task requiring control of a robot using a PLC. The task demonstrates a real application for the end user. Then we implement PROFINET communication interface and implement the described task for the robot. The final solution is then tested in real production line.
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Collaborative robots
Čefelín, David ; Knoflíček, Radek (referee) ; Vetiška, Jan (advisor)
This bachelor thesis summarizes the knowledge from the field of collaborative robotics. The research part deals with cooperation with collaborating robots, programming and using the collaborative robots in practice. In addition, the most well-known collaborative robots and their most important parameters are presented. In the practical part, the simple example of off-line programming with individual is shown.
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Design of Robotics workcell with Collaboraton robots in according of Industry 4.0
Kuba, Gabriel ; Vetiška, Jan (referee) ; Knoflíček, Radek (advisor)
The diploma thesis is focused on Industry 4.0, where all essential elements of Industry 4.0 are gradually being discussed. This thesis presents the collaborative robots and their specifications are described and then the market for these robots is depicted. Subsequently, the robot cell is designed with collaborative robots ABB Yumi to serve the educational purposes. This created robotic cell is displayed exemplary role. In the last part of the thesis a risk analysis is created for this robotized workplace. This entire Risk Analysis Protocol is attached.
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Voice control of cooperative robots
Bubla, Lukáš ; Němec, Zdeněk (referee) ; Lacko, Branislav (advisor)
The aim of the diploma thesis was to create a program with which it will be possible to control a collaborative robot by voice. First chapters contain a search of the current state in the field of collaborative robotics in terms of safety, work efficiency, robot programming and communication with the robot. Furthermore, the issue of machine processing of the human voice is discussed. In practical part was proposed an experiment in which we work with off-line simulation of UR3 robot in PolyScope 3.15.0 software. This simulation was linked to a Python program which uses SpeechRecognition and urx libraries. Simple voice instructions have been designed to move robot to defined position.
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FLUID HANDLING USING THE ABB YUMI PLATFORM – PIPETTING
Smolinský, Michal ; Parák, Roman (referee) ; Matoušek, Radomil (advisor)
The aim of this bachelor thesis is to create a control program for the collaborative robot IRB 14000, whose task is the accurate dosing of liquid using a pipette. The introduction introduces the collaborative robotics industry, followed by a description, development and ABB products. After the introduction of the model of the used robot, attention is paid to the issue of liquid handling, which includes the selection of a suitable pipette. The application performed by the robot and its creation forms the rest of the work, which includes, in addition to the original pipetting task, an extension in the form of a separate task. The aim of this task was to prepare a mixed drink for the purpose of presenting the used robot. The following last part describes the process of testing both tasks on a real prototype robot, the product of which is a video, which is part of the appendix.
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Autonomous assembly using the UR5e robotic arm
Cesnek, Martin ; Formánek, Martin (referee) ; Najman, Jan (advisor)
This bachelor thesis deals with the demonstration of the abilities of collaborative robots in practical use. These abilities are demonstrated in a task where the robot autonomously composes a predefined shape from LEGO cubes. The UR5e robot from universal Robots was used together with the OnRobot RG2 gripper to carry out this work. Communication with the robot is ensured by the Maltab environment with the use of the library created at ÚMTMB from BUT FME. The first part of the work is devoted to getting acquainted with the used hardware and introducing the functions of the library together with setting up the communication between the robot and PC. There is also paid attention to the analysis of possible solutions to the problem of stacking LEGO cubes. The second part presents the methodology and elaboration of structural elements together with control software for robot motion control and data processing from sensors. The result is a demonstration in which the user enters the input parameters of a rectangular 3D shape according to which the robot autonomously composes the given shape.
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