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Testing of Coverage Path Planning
Krajňák, Damián ; Janoušek, Vladimír (referee) ; Rozman, Jaroslav (advisor)
The aim of this thesis is to design and implement a program with graphical user interface, designed for algorithm testing and complete coverage of a given area. Problem was solved by decomposition of a 2D space into cells, which were sequentially covered. The areas of individual cells are covered in a way, that is selected based on the selected algorithm. Created solution provides a draft of an optimal pathway for robots intended for complete coverage of space, which are, for example, autonomous vacuum cleaners, cleaning robots, robotic lawn mowers etc.
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Path Planning for Autonomous Agricultural Machines
Kuchta, Lukáš ; Janoušek, Vladimír (referee) ; Rozman, Jaroslav (advisor)
With the ever-growing human population on Earth, it is necessary to ensure that the agricultural sector also grows in order to ensure enough food for all people. One way to ensure this is to increase automation in this area. Since fewer and fewer people are engaged in agriculture, more or less autonomous devices are being used more often. This work deals with a summary of algorithms that are used for route planning (not only) in the field of agriculture, which is one of the key components of autonomous vehicles. First, the history in this area is summarized, followed by the current state of autonomous vehicles in agriculture. Next, point-to-point algorithms are summarized, followed by coverage routing algorithms. The next part deals with the use of these algorithms in practice. The next part describes the design of the application, which is implemented in the next part of this work. A program is created that creates a coverage map for the specified field and machine. Finally, the results of the work are summarized.
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Testing of Coverage Path Planning
Krajňák, Damián ; Janoušek, Vladimír (referee) ; Rozman, Jaroslav (advisor)
The aim of this thesis is to design and implement a program with graphical user interface, designed for algorithm testing and complete coverage of a given area. Problem was solved by decomposition of a 2D space into cells, which were sequentially covered. The areas of individual cells are covered in a way, that is selected based on the selected algorithm. Created solution provides a draft of an optimal pathway for robots intended for complete coverage of space, which are, for example, autonomous vacuum cleaners, cleaning robots, robotic lawn mowers etc.
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