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Design of omni directional mobile robot (O3-X) control
Olša, Petr ; Ošmera, Pavel (referee) ; Matoušek, Radomil (advisor)
This thesis deals with the design of a three-wheeled omni-directional robot control. The model of control is designed for robot´s omni-directional platform driven by maxon motor with the intelligent positioning controller EPOS. The design of control contains: - installation of the coordinated systems and transformation from one of them into another - design of system´s kinematical model - creation of classes for control and communication with EPOS - creation of the simulative program - planning of the mobile robot´s path - verification that the system is working The solution was based on continuous accelerated motion and the maximal acceleration of wheels was concerned, so that the slip would be suppressed. The function of the model was partly verified.
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The Design and Realization of the Lowest Level Layer of the Control Unit for a Walking Robot
Olša, Petr ; Andrš, Ondřej (referee) ; Ondroušek, Vít (advisor)
This BA thesis is focused on the project and realization of the lowest layer of manipulation of the walking robot. The realization of the lowest layer contains: •installation of the coordinated systems •the solution of the inverse task of kinematics of the robot •creation of the simulative and communicative program •implementation of the inverse task of kinematics into the microcontroller •incorporation of serial communication between the PC and robot into the controlling system •realization of robot’s walking In the end, the ability of the controlling system to accomplish the orders in real time is tested.
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Design of omni directional mobile robot (O3-X) control
Olša, Petr ; Ošmera, Pavel (referee) ; Matoušek, Radomil (advisor)
This thesis deals with the design of a three-wheeled omni-directional robot control. The model of control is designed for robot´s omni-directional platform driven by maxon motor with the intelligent positioning controller EPOS. The design of control contains: - installation of the coordinated systems and transformation from one of them into another - design of system´s kinematical model - creation of classes for control and communication with EPOS - creation of the simulative program - planning of the mobile robot´s path - verification that the system is working The solution was based on continuous accelerated motion and the maximal acceleration of wheels was concerned, so that the slip would be suppressed. The function of the model was partly verified.
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The Design and Realization of the Lowest Level Layer of the Control Unit for a Walking Robot
Olša, Petr ; Andrš, Ondřej (referee) ; Ondroušek, Vít (advisor)
This BA thesis is focused on the project and realization of the lowest layer of manipulation of the walking robot. The realization of the lowest layer contains: •installation of the coordinated systems •the solution of the inverse task of kinematics of the robot •creation of the simulative and communicative program •implementation of the inverse task of kinematics into the microcontroller •incorporation of serial communication between the PC and robot into the controlling system •realization of robot’s walking In the end, the ability of the controlling system to accomplish the orders in real time is tested.
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