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Mobile robot control system
Řezníček, Radek ; Kříž, Vlastimil (referee) ; Hynčica, Ondřej (advisor)
This thesis deals with differential drive wheeled mobile robot which is running under a real-time operating system. Introductory part is focused on theoretical description of robot and its original firmware. Practical part deals with creating software and implementation several methods that allow following the line by robot using reflectance sensor array. Significant part of this thesis is focused on design and implementation of communication protocol, based on IEEE 802.15.4 which provides communication between robot and PC. There is also created a PC application that allows to transmit commands to the robot and display information gained from robot.
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Line tracking for delivery robot
Juhas, Miroslav ; Horák, Karel (referee) ; Janáková, Ilona (advisor)
This thesis describes basics of methods and algorithms used in computer vision and application of them at a simple practical problem – line-tracking for delivery robot. The first part of this thesis contains basic theoretical knowledge of computer vision, which is important for understanding the problem. It is an introduction to problems of computer vision. The second part of thesis describes solving of particular steps, which are image preprocessing, segmentation, trajectory detection and algorithms for direction control. It contains outcomes of particular steps and selection of methods acceptable for solving the problem. There are presented experiences with tests of algorithms on the UTAR platform in context of this work. The last part of thesis is evaluating results taken during work.
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Modelling and simulation of robotic applications
Šťastný, Martin ; Heriban, Pavel (referee) ; Šťastný, Jiří (advisor)
The aim of this master thesis is to make research of Open Source software, which are used for simulation autonomous robots. At the begining is performed research of selected robotic simulators. In the first part of this work is to get familiar with robotic simulator Gazebo and robotic framework ROS. The second part of this work deals with simulating and subsequent implementation of choosen robotic tasks through the simulator Gazebo and the ROS framework.
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Small path follower robot
Zacpal, Michal ; Burian, František (referee) ; Kopečný, Lukáš (advisor)
This thesis describes the design and subsequent implementation of the control system for small path follower robot. On the introduction are presents the platform´s on which the system was built. In the next section are gradually introduced: A module for following the line (HW, SW), modul for control motors (HW, SW) and the control unit (HW, SW). Then is presents construction on which the system was tested. Finally, there were implemented two algorithms for tracking lines. Whole system, including the plug moduls is built on Atmel microcontrollers, and this ATmega8 and ATmega328. They are based on open - source platform Arduino, because they contain Arduino bootloader. Microcontrollers using I2C bus to communicate each other. Control unit is using to communicate with users LCD display and four buttons. For scanning a line is using five reflective optocoupler CNY70.
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Software for the simulation of autonomous robot
Šťastný, Martin ; Lang, Stanislav (referee) ; Zuth, Daniel (advisor)
Objective of this bachelor work is to make research of SW, which are used for simulation of autonomous robots. At the beginning I explain general concepts of robotic simulation. And I also explain advantages of usage of robotic simulators. In the first part of my research are described some chosen robotic simulators. The second part of my research compares robotic simulators, which is more suitable for simulations of robotic operations. In the end of my research the most suitable simulator is taken and used for simple robotic demonstration.
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Arduino: programming by means of Matlab/Simulink
Zimek, Tomáš ; Lang, Stanislav (referee) ; Matoušek, Radomil (advisor)
The thesis deals with the Arduino platform, its programming in Matlab/Simulink and effective application on three tasks. The first deals with color recognition, when the Arduino is is used as an input/output device. In the second task the Arduino board with Motor Shield compatibility follows a line as a vehicle. The third task demonstrates using a manipulator to move objects based on its color.
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Arduino: programming by means of Matlab/Simulink
Zimek, Tomáš ; Lang, Stanislav (referee) ; Matoušek, Radomil (advisor)
The thesis deals with the Arduino platform, its programming in Matlab/Simulink and effective application on three tasks. The first deals with color recognition, when the Arduino is is used as an input/output device. In the second task the Arduino board with Motor Shield compatibility follows a line as a vehicle. The third task demonstrates using a manipulator to move objects based on its color.
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Mobile robot control system
Řezníček, Radek ; Kříž, Vlastimil (referee) ; Hynčica, Ondřej (advisor)
This thesis deals with differential drive wheeled mobile robot which is running under a real-time operating system. Introductory part is focused on theoretical description of robot and its original firmware. Practical part deals with creating software and implementation several methods that allow following the line by robot using reflectance sensor array. Significant part of this thesis is focused on design and implementation of communication protocol, based on IEEE 802.15.4 which provides communication between robot and PC. There is also created a PC application that allows to transmit commands to the robot and display information gained from robot.
|
|
|
Small path follower robot
Zacpal, Michal ; Burian, František (referee) ; Kopečný, Lukáš (advisor)
This thesis describes the design and subsequent implementation of the control system for small path follower robot. On the introduction are presents the platform´s on which the system was built. In the next section are gradually introduced: A module for following the line (HW, SW), modul for control motors (HW, SW) and the control unit (HW, SW). Then is presents construction on which the system was tested. Finally, there were implemented two algorithms for tracking lines. Whole system, including the plug moduls is built on Atmel microcontrollers, and this ATmega8 and ATmega328. They are based on open - source platform Arduino, because they contain Arduino bootloader. Microcontrollers using I2C bus to communicate each other. Control unit is using to communicate with users LCD display and four buttons. For scanning a line is using five reflective optocoupler CNY70.
|
|
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Modelling and simulation of robotic applications
Šťastný, Martin ; Heriban, Pavel (referee) ; Šťastný, Jiří (advisor)
The aim of this master thesis is to make research of Open Source software, which are used for simulation autonomous robots. At the begining is performed research of selected robotic simulators. In the first part of this work is to get familiar with robotic simulator Gazebo and robotic framework ROS. The second part of this work deals with simulating and subsequent implementation of choosen robotic tasks through the simulator Gazebo and the ROS framework.
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