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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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Real Time Melfa Controlling Using ROS
Liška, Jakub ; Janoušek, Vladimír (referee) ; Rozman, Jaroslav (advisor)
The goal of this bachelor thesis is to explore the possibilities of controlling the industrial robotic arm Mitsubishi Melfa RV-6SL using ROS (Robot Operating System) and the subsequent implementation of this knowledge into a functional application. This work describes to the reader not only the theoretical foundations of the work, but also how to create the configuration packages needed to simulate the robotic arm in the simulation environment Gazebo, as well as real-time control of the real robotic arm. The text also describes path planning using the MoveIt library, based on poses of robotic arm selected in the Rviz visualization environment.
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Implementing the checkers game using a robotic manipulator
Lichosyt, David ; Ligocki, Adam (referee) ; Lázna, Tomáš (advisor)
The thesis starts with a field research about existing robotic systems with implemented checkers or similar desk games. In its next parts are described posibilities of controling robotic manipulator Fanuc LR Mate 200iD 4S using controller R-30iB Mate from platform ROS located on external hardware. In few next pages of the thesis there are mentioned designed and used physical models. Following chapters describe real time game situation detection, game logic implementation and human input with safety in mind. At the end of the thesis there are mentioned rule checking algorithms, system operation instructions and possible future upgrades of the system.
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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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Programming of an Educational Robotic Manipulator
Lichosyt, David ; Burian, František (referee) ; Lázna, Tomáš (advisor)
The thesis in theoretical part is about inner arrangement of ROS platform and principles behind ROS Industrial, Moveit and image processing. In its practical part is this theoretical knowledge applied on robotic manipulator Fanuc LR Mate 200iD/4S, its controller Fanuc 30iB Mate and industrial camera to create system for moving pieces across the board like in game name checkers.
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Doors Opening for PR2
Senčuch, Daniel ; Materna, Zdeněk (referee) ; Kapinus, Michal (advisor)
This thesis aims to explore possibilities of door opening by the PR2 robotic platform based on information about the location and properties of the doors. This information must be obtained from another program that follows the protocol designed in this thesis. This thesis' effort should then produce a working program for the Robotic Operating System which - when run on the PR2 - is able to at least open doors in the direction from the robot and get the robot through them. The result has been successfully tested on the doors to the faculty robotic laboratory.
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Control of the UR5 robot from the Robotic Operating System (ROS)
Zdeněk, Marcel ; Formánek, Martin (referee) ; Radil, Filip (advisor)
The aim of the bachelor's thesis is to describe the Robotic Operating System (ROS) and its use. Next, create a laboratory task where the UR5e robot, based on data obtained from the depth camera, guides the end effector of the manipulator, so-called gripper, to grasp an object in space. The thesis describes the ROS and its extension packages MoveIt and Gazebo, which are mainly suitable for controlling and simulating manipulators and robots in general. At the end of the thesis, the implementation of HW with ROS and the procedure for designing a grasping algorithm and testing it on a laboratory task – finding and grasping coloured cubes in space and their subsequent assembly on top of each other are described.
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Implementing the checkers game using a robotic manipulator
Lichosyt, David ; Ligocki, Adam (referee) ; Lázna, Tomáš (advisor)
The thesis starts with a field research about existing robotic systems with implemented checkers or similar desk games. In its next parts are described posibilities of controling robotic manipulator Fanuc LR Mate 200iD 4S using controller R-30iB Mate from platform ROS located on external hardware. In few next pages of the thesis there are mentioned designed and used physical models. Following chapters describe real time game situation detection, game logic implementation and human input with safety in mind. At the end of the thesis there are mentioned rule checking algorithms, system operation instructions and possible future upgrades of the system.
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Real Time Melfa Controlling Using ROS
Liška, Jakub ; Janoušek, Vladimír (referee) ; Rozman, Jaroslav (advisor)
The goal of this bachelor thesis is to explore the possibilities of controlling the industrial robotic arm Mitsubishi Melfa RV-6SL using ROS (Robot Operating System) and the subsequent implementation of this knowledge into a functional application. This work describes to the reader not only the theoretical foundations of the work, but also how to create the configuration packages needed to simulate the robotic arm in the simulation environment Gazebo, as well as real-time control of the real robotic arm. The text also describes path planning using the MoveIt library, based on poses of robotic arm selected in the Rviz visualization environment.
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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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