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Virtual environment for visualization and simulation in mobile robotics
Pár, Filip ; Cihlář, Miloš (referee) ; Gábrlík, Petr (advisor)
The purpose of this bachelor thesis is to get acquainted with the ROS2 framework. Furthermore, this thesis describes the detailed procedure of creating robot models of the ÚAMT workplace for the Rviz visualization tool and the Gazebo simulation environment. Subsequently, the thesis describes the procedure of creating a two-dimensional map for navigation purposes and a three-dimensional model of a part of the ÚAMT workplace for the use in the Gazebo simulation environment.
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Robotic Arm Path Planning
Major, Tomáš ; Luža, Radim (referee) ; Rozman, Jaroslav (advisor)
This bachelor thesis deals with the control of the Mitsubishi Melfa RV-6SL robot based on the planned path using the MoveIt library. In this thesis the reader can learn how to proceed and what information he needs when he wants to set the robotic arm in motion while using the MoveIt planning library with the ROS platform. The result of this work is the ability to control the Melfa RV-6SL robot with the ROS system, which is together with MoveIt briefly introduced at the beginning of this thesis.
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Comparation of the 2D LIDAR SLAM methods in the simulation and in the real world
Cihlář, Miloš ; Jelínek, Aleš (referee) ; Ligocki, Adam (advisor)
This thesis deals with the design of a mobile robotic platform with the ability to build a map with an already existing 2D SLAM algorithm and a comparison of this algorithm in simulation and the real world. It uses three known algorithms i.e. Hector slam, Gmapping, and Karto slam. The part of this work deals with the creation of two wheels differential drive robot models in the Gazebo simulator and with an implementation proposal that is realized with the ROS framework. In thesis is implemented basic localization technique for mobile robots. Planning algorithms and a path controller are mentioned. In thesis is proposed own access to an autonomous exploration of building to build a map of the building. For evaluation of the SLAM algorithm is suggested slam quality criterion.
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Virtual environment for visualization and simulation in mobile robotics
Pár, Filip ; Cihlář, Miloš (referee) ; Gábrlík, Petr (advisor)
The purpose of this bachelor thesis is to get acquainted with the ROS2 framework. Furthermore, this thesis describes the detailed procedure of creating robot models of the ÚAMT workplace for the Rviz visualization tool and the Gazebo simulation environment. Subsequently, the thesis describes the procedure of creating a two-dimensional map for navigation purposes and a three-dimensional model of a part of the ÚAMT workplace for the use in the Gazebo simulation environment.
|
|
|
Robotic Arm Path Planning
Major, Tomáš ; Luža, Radim (referee) ; Rozman, Jaroslav (advisor)
This bachelor thesis deals with the control of the Mitsubishi Melfa RV-6SL robot based on the planned path using the MoveIt library. In this thesis the reader can learn how to proceed and what information he needs when he wants to set the robotic arm in motion while using the MoveIt planning library with the ROS platform. The result of this work is the ability to control the Melfa RV-6SL robot with the ROS system, which is together with MoveIt briefly introduced at the beginning of this thesis.
|
|
|
Comparation of the 2D LIDAR SLAM methods in the simulation and in the real world
Cihlář, Miloš ; Jelínek, Aleš (referee) ; Ligocki, Adam (advisor)
This thesis deals with the design of a mobile robotic platform with the ability to build a map with an already existing 2D SLAM algorithm and a comparison of this algorithm in simulation and the real world. It uses three known algorithms i.e. Hector slam, Gmapping, and Karto slam. The part of this work deals with the creation of two wheels differential drive robot models in the Gazebo simulator and with an implementation proposal that is realized with the ROS framework. In thesis is implemented basic localization technique for mobile robots. Planning algorithms and a path controller are mentioned. In thesis is proposed own access to an autonomous exploration of building to build a map of the building. For evaluation of the SLAM algorithm is suggested slam quality criterion.
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