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Calibration of Robotic Workspace
Uhlíř, Jan ; Veľas, Martin (referee) ; Kapinus, Michal (advisor)
This work is concerned by the issue of calibrating a robotic workplace, including the localization of a calibration object for the purpose of calibrating a 2D or 3D camera, a robotic arm and a scene of robotic workplace. At first, the problems related to the calibration of the aforementioned elements were studied. Further, an analysis of suitable methods for performing these calibrations was performed. The result of this work is application of ROS robotic system providing methods for three different types of calibration programs, whose functionality is experimentally verified at the end of this work.
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Interaction Methods for Advanced Control of a Robotic Arm
Vida, Juraj ; Kapinus, Michal (referee) ; Materna, Zdeněk (advisor)
The purpose of this thesis is to extend the functionality of ARTable system, which is based on principles of simplified robot programming. These principles aim to simplify the human-robot interaction. The new instruction is added, which enables to teach the robot to place objects of the same type into a grid, for example a box. This instruction consists of two parts: (i) the extension of GUI, and (ii) the extension of the robot functionality. These extensions are implemented in Python using Qt framework, The Robot Operating System (ROS) and MoveIt! framework. The extension of ARTable is fully functional assuming that grasps are generated only on the y axis sides.
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Calibration of Robotic Workspace
Uhlíř, Jan ; Veľas, Martin (referee) ; Kapinus, Michal (advisor)
This work is concerned by the issue of calibrating a robotic workplace, including the localization of a calibration object for the purpose of calibrating a 2D or 3D camera, a robotic arm and a scene of robotic workplace. At first, the problems related to the calibration of the aforementioned elements were studied. Further, an analysis of suitable methods for performing these calibrations was performed. The result of this work is application of ROS robotic system providing methods for three different types of calibration programs, whose functionality is experimentally verified at the end of this work.
|
|
|
Interaction Methods for Advanced Control of a Robotic Arm
Vida, Juraj ; Kapinus, Michal (referee) ; Materna, Zdeněk (advisor)
The purpose of this thesis is to extend the functionality of ARTable system, which is based on principles of simplified robot programming. These principles aim to simplify the human-robot interaction. The new instruction is added, which enables to teach the robot to place objects of the same type into a grid, for example a box. This instruction consists of two parts: (i) the extension of GUI, and (ii) the extension of the robot functionality. These extensions are implemented in Python using Qt framework, The Robot Operating System (ROS) and MoveIt! framework. The extension of ARTable is fully functional assuming that grasps are generated only on the y axis sides.
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