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Docking Station for Automatic Charging of Batteries of Robot
Beran, Jan ; Janoušek, Vladimír (referee) ; Rozman, Jaroslav (advisor)
The aim of this thesis is to create a functional docking and charging system for the Trilobot robot, which is improved and modified for use in future projects as a part of this thesis. The theoretical part discusses the path planning methods, battery types and charging methods, types of docking stations and the charging method itself. Also, a robot refurbishment design is presented, which is then implemented, along with the docking station. The refurbished robot has functional control software in the ROS framework, which allows it to perform not only the task of autonomous battery charging. In this thesis, a test of the whole system is also performed and the results are evaluated.
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The Trilobot Model
Štěpán, Miroslav ; Janoušek, Vladimír (referee) ; Hrubý, Martin (advisor)
This MSc Thesis describes creation of motion model of mobile robot called Trilobot. This model is implemented into simple simulation tool. Some laboratory experiments with the robot are described in this paper. There is also some information about SmallDEVS tool and Squeak Smalltalk environment in which the model was implemented. Motivation of this work is effort to simplify the design and testing of navigation algorithms for Trilobot, which is available for students of FIT BUT in the robotics lab of department of intelligent systems. This simple simulation tool could partially reduce dependence on physical availability of this robot.
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Educational Tutorial for Using of Arduino in Robotics
Beran, Jan ; Veigend, Petr (referee) ; Rozman, Jaroslav (advisor)
The aim of this thesis is to create an educational tutorial for using Arduino in robotics with the Trilobot robot. The tutorial aims to be focused on the target group of elementary school students and above with an interest in robotics and MCUs, but without any advanced knowledge of their operation. The theoretical part will summarize the current tutorials available for the Arduino and similar, together with the design of the reconstruction of the Trilobot robot and the design of the tutorial. In the practical part, both the creation of the robot itself and the preparation of slides in both Czech and English languages and source codes for the tutorial and testing will be implemented.
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Robot Trilobot Control Using FITKit
Růžek, Michal ; Novotný, Tomáš (referee) ; Orság, Filip (advisor)
The goal of this master's thesis is to design a robot Trilobot controller using a FITkit platform. It describes sensors and actuators widely used in mobile robotics. Part of the thesis is aimed to analyze in detail current Trilobot's peripherals, their conections and ways of communication. A circuit diagram of designed electronics is completed by the PCB design and description of small changes of the current Trilobot. The thesis also contains implementation of utility HW in the FPGA and a software library for a microcontroller. The finished control unit is tested by sort of demonstration applications.
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Trilobot Upgrade
Polášek, Patrik ; Hrubý, Martin (referee) ; Rozman, Jaroslav (advisor)
The main aim of this work is to create a robot moving on wheels, create communication among all the sensors and microcomputers with the help of the Robot Operating System (ROS). Sensors are mounted on a plastic handle that is printed on 3D printer. The Arduino microcomputer manages low-level signals for reading sensor data and signals to control the engine, the another one and more powerful ODROID-XU4 microcomputer runs the core of ROS and a graphical application that allows controlling robot on the touchscreen.
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Using of Sensors in Robotic Laboratories
Fabo, Adam ; Beran, Jan (referee) ; Rozman, Jaroslav (advisor)
The aim of this work is to create exercises for a subject taught at the university level. The exercises deal with the teaching of basic elements of robotics and electronics, such as various sensors, motors, and methods of data acquisition. The created exercises are aimed at beginners in the world of robotics. The output of this work is a set of materials that can be used in teaching.
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Docking Station for Automatic Charging of Batteries of Robot
Beran, Jan ; Janoušek, Vladimír (referee) ; Rozman, Jaroslav (advisor)
The aim of this thesis is to create a functional docking and charging system for the Trilobot robot, which is improved and modified for use in future projects as a part of this thesis. The theoretical part discusses the path planning methods, battery types and charging methods, types of docking stations and the charging method itself. Also, a robot refurbishment design is presented, which is then implemented, along with the docking station. The refurbished robot has functional control software in the ROS framework, which allows it to perform not only the task of autonomous battery charging. In this thesis, a test of the whole system is also performed and the results are evaluated.
|
|
|
Trilobot Upgrade
Polášek, Patrik ; Hrubý, Martin (referee) ; Rozman, Jaroslav (advisor)
The main aim of this work is to create a robot moving on wheels, create communication among all the sensors and microcomputers with the help of the Robot Operating System (ROS). Sensors are mounted on a plastic handle that is printed on 3D printer. The Arduino microcomputer manages low-level signals for reading sensor data and signals to control the engine, the another one and more powerful ODROID-XU4 microcomputer runs the core of ROS and a graphical application that allows controlling robot on the touchscreen.
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Educational Tutorial for Using of Arduino in Robotics
Beran, Jan ; Veigend, Petr (referee) ; Rozman, Jaroslav (advisor)
The aim of this thesis is to create an educational tutorial for using Arduino in robotics with the Trilobot robot. The tutorial aims to be focused on the target group of elementary school students and above with an interest in robotics and MCUs, but without any advanced knowledge of their operation. The theoretical part will summarize the current tutorials available for the Arduino and similar, together with the design of the reconstruction of the Trilobot robot and the design of the tutorial. In the practical part, both the creation of the robot itself and the preparation of slides in both Czech and English languages and source codes for the tutorial and testing will be implemented.
|
|
|
The Trilobot Model
Štěpán, Miroslav ; Janoušek, Vladimír (referee) ; Hrubý, Martin (advisor)
This MSc Thesis describes creation of motion model of mobile robot called Trilobot. This model is implemented into simple simulation tool. Some laboratory experiments with the robot are described in this paper. There is also some information about SmallDEVS tool and Squeak Smalltalk environment in which the model was implemented. Motivation of this work is effort to simplify the design and testing of navigation algorithms for Trilobot, which is available for students of FIT BUT in the robotics lab of department of intelligent systems. This simple simulation tool could partially reduce dependence on physical availability of this robot.
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