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User Interface for Robot Control in Object Grasping Task
Manďák, Roman ; Materna, Zdeněk (referee) ; Beran, Vítězslav (advisor)
This bachelor work is focused on design and implementation of the user interface (UI) for the control of a robot during grasping objects. Common devices as well as the less ordinary ones were used and compared for capturing user gestures of various types. The work includes an in-depth analysis of the devices which are used in robotics, a description of existing solutions which serves as a ground for application design, and rules for creating the UI. Further are described design, implementation, the experiments with the application which were conducted, and in the end the result of the comparison of control devices.
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Robot Programming Using a 3D Mouse
Lukáč, Tomáš ; Kapinus, Michal (referee) ; Materna, Zdeněk (advisor)
This thesis expands the project of group Robo@FIT named "Test-it-off: robotizované offline testování produktů". The project is targeted at the development of a program, that allows a simple operation of a robot workstation. The implemented solution supports the operation of a workstation using a tablet device, which makes use of augmented reality. My thesis expands on this solution by adding support for robot operation using a 3D mouse. The goal of this project is an acceleration of simple program creation for robot workstation operation. With these goals in mind, the application has been implemented, and afterward, user testing had been carried out. The results of testing conclude, that the new method indeed is faster and also more intuitive, than the previous solution.
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Quadrotor 3D Intuitive Flying
Husák, Robert ; Plch, Tomáš (advisor) ; Obdržálek, David (referee)
The Rotor-based Unmanned Aerial Vehicle (R-UAV) is a robotic aerial plat- form capable of Vertical Take-Off and Landing. It is commonly controlled by a "two stick" interface common to radio controlled models of ships and airplanes. However, this method of control proves to be difficult to learn and master in the domain of R-UAV. Therefore, we examined other control devices: smartphone, gamepad, joystick, 3DConnection SpaceNavigator and Novint Falcon. They were used by 19 volunteers to perform two simple navigation scenarios with AR.Drone, a small R-UAV from Parrot. We separated the pilots into two groups, based on their experience with the R-UAV remote control. We measured the time needed for each device to fulfill every task, including the number of unwanted collisions with obstacles, as well as the pilot's satisfaction with it. According to the results of the experiment, joystick and smartphone proved to be less intuitive and effec- tive among all pilots, especially the inexperienced. Gamepad seemed to be most usable for experienced pilots, although the inexperienced had problems distribut- ing control between two hands, as we expected. 3DConnexion, SpaceNavigator and Novint Falcon were rated the best devices for inexperienced users.
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User Interface for Robot Control in Object Grasping Task
Manďák, Roman ; Materna, Zdeněk (referee) ; Beran, Vítězslav (advisor)
This bachelor work is focused on design and implementation of the user interface (UI) for the control of a robot during grasping objects. Common devices as well as the less ordinary ones were used and compared for capturing user gestures of various types. The work includes an in-depth analysis of the devices which are used in robotics, a description of existing solutions which serves as a ground for application design, and rules for creating the UI. Further are described design, implementation, the experiments with the application which were conducted, and in the end the result of the comparison of control devices.
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