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Hardware and software for mobile robots
Sárközy, Gabriel ; Skula, David (referee) ; Veselý, Miloš (advisor)
The aim of this work is to modify hardware and software of small mobile robots, so they can be better used in Micromouse and Path Follower challenges. The first part of the project includes debugging and creating of a correct documentation of the existing electric circuits used in the robot called RUBRIK. My work was also to design and realize mechanical, electrical and software upgrades. The second part includes the design and realization of similar modifications of the robot ROBIK. Each robot has an Atmel AVR microcontroller. Robots are programmed in C programming language.
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Outdoor Mobile Robot Self-localisation
Sárközy, Gabriel ; Jílek, Tomáš (referee) ; Žalud, Luděk (advisor)
The aim of this work was to create a self-localization unit. The basis of the unit is an electronic platform Netduino Plus, which is connected with a measurement unit MTi-G and a camera based sensor, which is able to detect the position of points on the schools testing polygon. Configuration of the measurement unit MTi-G was done by a modified previously developed program. The program of the platform uses lover level communication with the sensor without using predefined classes from the manufacturer. This should improve the speed of processing the data from the sensor. To check the accuracy of the position provided by the self-localization unit another program was created. This program receives messages form a more accurate localization system that is mounted to the robot. The localization system is based on Trimble DB982 receiving modules.
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Hardware and software for mobile robots
Sárközy, Gabriel ; Skula, David (referee) ; Veselý, Miloš (advisor)
The aim of this work is to modify hardware and software of small mobile robots, so they can be better used in Micromouse and Path Follower challenges. The first part of the project includes debugging and creating of a correct documentation of the existing electric circuits used in the robot called RUBRIK. My work was also to design and realize mechanical, electrical and software upgrades. The second part includes the design and realization of similar modifications of the robot ROBIK. Each robot has an Atmel AVR microcontroller. Robots are programmed in C programming language.
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Outdoor Mobile Robot Self-localisation
Sárközy, Gabriel ; Jílek, Tomáš (referee) ; Žalud, Luděk (advisor)
The aim of this work was to create a self-localization unit. The basis of the unit is an electronic platform Netduino Plus, which is connected with a measurement unit MTi-G and a camera based sensor, which is able to detect the position of points on the schools testing polygon. Configuration of the measurement unit MTi-G was done by a modified previously developed program. The program of the platform uses lover level communication with the sensor without using predefined classes from the manufacturer. This should improve the speed of processing the data from the sensor. To check the accuracy of the position provided by the self-localization unit another program was created. This program receives messages form a more accurate localization system that is mounted to the robot. The localization system is based on Trimble DB982 receiving modules.
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