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Design of humanoid racing robot
Zajíc, Jiří ; Marada, Tomáš (referee) ; Věchet, Stanislav (advisor)
Thesis deals with the selection and preparation of robot for competition RoboCup HumaoidLeague. As a basis for robot is used Robotis Bioloid Kit. The kit is extended with a new control unit Roboard-100, rotation and acceleration sensor, a webcam, and Li-Pol batteries. Furthermore, it examined communications between servo drives and designed signal converter from the USB to Dynamixel bus. Its functionality is then tested on the basic control programs.
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Design and implementation of control program for mobile robot platform Turtlebot3 Burger
Filip, Jakub ; Lacko, Branislav (referee) ; Parák, Roman (advisor)
The aim of the bachelor thesis is the design and implementation of a control program for the mobile robotic platform TurtleBot3 Burger. The theoretical part of the bachelor's thesis defines the issue of mobile robotics, with a closer look at the various possibilities of locomotion, including examples from industrial practice. The TurtleBot3 mobile robot series belongs to the robotic platforms distributed by ROBOTIS, where their main feature is compatibility with the Robotic Operating System (ROS). The core of this system is licensed under the BSD, which guarantees open source code. The integration of ROS with the TurtleBot3 Burger model provides freely accessible robust libraries, which form the basis for understanding the control of a differentially controlled robot through ROS. In the practical part, the assembly and configuration of the robotic kit TurtleBot3 Burger is performed, including the introduction of key functionalities of this mobile platform, and the design of your own solution. The conclusion contains the justification of the mentioned proposal and the output after its implementation on a real robot.
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Mobile platform path planning algorithm design
Smolinský, Michal ; Kůdela, Jakub (referee) ; Holoubek, Tomáš (advisor)
The aim of this master's thesis is to create a program of selected laboratory tasks for the mobile robot TurtleBot3 Burger. These tasks are the mapping of an unknown environment and the design of a path planning algorithm using the ROS framework. The first chapters of the work, which describe the field of mobile robotics, the TurtleBot3 Burger robot, the Robotic Operating System, the used path planning algorithms, and The ROS Navigation Stack, are devoted to clarifying the necessary knowledge. After the robot is put into operation, the mapping and path planning task is created. The following chapter is dedicated to verifying the functionality of both tasks, which also includes a comparison of the used path planning algorithms. The evaluation of the application of the algorithms on the TurtleBot3 Burger platform, the benefits of the proposed algorithms and their practical use in a real environment is described in the final chapter of this work.
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Design and implementation of control program for mobile robot platform Turtlebot3 Burger
Filip, Jakub ; Lacko, Branislav (referee) ; Parák, Roman (advisor)
The aim of the bachelor thesis is the design and implementation of a control program for the mobile robotic platform TurtleBot3 Burger. The theoretical part of the bachelor's thesis defines the issue of mobile robotics, with a closer look at the various possibilities of locomotion, including examples from industrial practice. The TurtleBot3 mobile robot series belongs to the robotic platforms distributed by ROBOTIS, where their main feature is compatibility with the Robotic Operating System (ROS). The core of this system is licensed under the BSD, which guarantees open source code. The integration of ROS with the TurtleBot3 Burger model provides freely accessible robust libraries, which form the basis for understanding the control of a differentially controlled robot through ROS. In the practical part, the assembly and configuration of the robotic kit TurtleBot3 Burger is performed, including the introduction of key functionalities of this mobile platform, and the design of your own solution. The conclusion contains the justification of the mentioned proposal and the output after its implementation on a real robot.
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Design of humanoid racing robot
Zajíc, Jiří ; Marada, Tomáš (referee) ; Věchet, Stanislav (advisor)
Thesis deals with the selection and preparation of robot for competition RoboCup HumaoidLeague. As a basis for robot is used Robotis Bioloid Kit. The kit is extended with a new control unit Roboard-100, rotation and acceleration sensor, a webcam, and Li-Pol batteries. Furthermore, it examined communications between servo drives and designed signal converter from the USB to Dynamixel bus. Its functionality is then tested on the basic control programs.
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