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Object detection using ToF camera
Hlaváč, Martin ; Bastl, Petr (referee) ; Valach, Soběslav (advisor)
This thesis is about computer vision using a ToF camera. The thesis summarizes the history of ToF cameras and their use. The text also includes the parameters of the cameras I worked with and describes the used libraries, OpenCV and wxWidgets. The text also describes the proposal and subsequently the description of the created application intended for counting people. The work also includes a description of the functionality of the designed application and a proposal for possible further modifications of the application.
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Mobile robot navigation with obstacle avoidance
Stříteský, Vladimír ; Burian, František (referee) ; Žalud, Luděk (advisor)
Thesis deals with automatic guided mobile robot focused on obstacle avoidance during ride on planned route. There are summaries of usually used obstacle detecting sensors and algorithms used for path finding. Based on this, own solution is designed. It uses waypoints changes to pass obstacle. MATLAB simulation is created for tests of new designed method. This method is implemented to real robot for real world testing. Reached goals and upgrade possibilities are summarized in bottom of thesis.
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Obstacle detection using an image-based 3D scanner
Rybin, Andrei ; Kumpán, Pavel (referee) ; Hrbáček, Jan (advisor)
Tato bakalářská práce se zabývá implementaci softwaru pro systém detekci překážek pomoci kamerového 3D skeneru Kinect V2. V rešeršní části jsou detailně popsány existující druhy kamerových 3D skenerů, jsou analyzovány existujiící řešení, a algoritmy v oblasti detekci překážek a je uvedena potřebná teorie. Praktická část se skládá ze tři části: popis použité robotické platformy, rozbor implementaci softwaru pro detekci překáźek, a diskuzní část s analýzou výsledků experimentů. Na závěr vyvínutý systém je zhodnocen, jsou navrženy možnosti jeho aplikace a dalšího vývoje.
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Minidarpa robot - senzoric subsystem
Sedlák, Luboš ; Žalud, Luděk (referee) ; Kopečný, Lukáš (advisor)
This master’s thesis describes a sensorial subsystem of a mobile robot. The thesis mentions the structure and a basis of the satellite navigation. There are also described each systems and visualization techniques as e. g. WGS 84, including also other systems for specification of more accurate position on the Earth (EGNOS, WAAS and others). This thesis describes closely also a differential GPS and the corrections. For the purposes of the thesis there has been assembled GPS software for a fundamental and a remote station. There have been chosen and used modules for receiving a GPS signal and wireless modules for their communication. There are also used outcomes from the project of the Open Street Map in the thesis. Results of this project are described in details, decoded, adjusted and converted into RNDF file. At the end of this thesis there has been composed a function of the program for portable camera which works on principle time of flight. This portable camera is dedicated to look for immediate barrier and also for 3D space view in front of the robot. This thesis also including the process how the power source has been built up for this portable scanner.
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Obstacle detection using an image-based 3D scanner
Rybin, Andrei ; Kumpán, Pavel (referee) ; Hrbáček, Jan (advisor)
Tato bakalářská práce se zabývá implementaci softwaru pro systém detekci překážek pomoci kamerového 3D skeneru Kinect V2. V rešeršní části jsou detailně popsány existující druhy kamerových 3D skenerů, jsou analyzovány existujiící řešení, a algoritmy v oblasti detekci překážek a je uvedena potřebná teorie. Praktická část se skládá ze tři části: popis použité robotické platformy, rozbor implementaci softwaru pro detekci překáźek, a diskuzní část s analýzou výsledků experimentů. Na závěr vyvínutý systém je zhodnocen, jsou navrženy možnosti jeho aplikace a dalšího vývoje.
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Mobile robot navigation with obstacle avoidance
Stříteský, Vladimír ; Burian, František (referee) ; Žalud, Luděk (advisor)
Thesis deals with automatic guided mobile robot focused on obstacle avoidance during ride on planned route. There are summaries of usually used obstacle detecting sensors and algorithms used for path finding. Based on this, own solution is designed. It uses waypoints changes to pass obstacle. MATLAB simulation is created for tests of new designed method. This method is implemented to real robot for real world testing. Reached goals and upgrade possibilities are summarized in bottom of thesis.
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Minidarpa robot - senzoric subsystem
Sedlák, Luboš ; Žalud, Luděk (referee) ; Kopečný, Lukáš (advisor)
This master’s thesis describes a sensorial subsystem of a mobile robot. The thesis mentions the structure and a basis of the satellite navigation. There are also described each systems and visualization techniques as e. g. WGS 84, including also other systems for specification of more accurate position on the Earth (EGNOS, WAAS and others). This thesis describes closely also a differential GPS and the corrections. For the purposes of the thesis there has been assembled GPS software for a fundamental and a remote station. There have been chosen and used modules for receiving a GPS signal and wireless modules for their communication. There are also used outcomes from the project of the Open Street Map in the thesis. Results of this project are described in details, decoded, adjusted and converted into RNDF file. At the end of this thesis there has been composed a function of the program for portable camera which works on principle time of flight. This portable camera is dedicated to look for immediate barrier and also for 3D space view in front of the robot. This thesis also including the process how the power source has been built up for this portable scanner.
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