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Innovation of Uniform Marker Fields for Allowing Better Scale Freedom
Studený, Petr ; Zachariáš, Michal (referee) ; Herout, Adam (advisor)
This work introduces innovations to the Uniform Marker Fields which cover a~large-scale planar area and are composed of mutually overlapping partial markers. The goal of this work is to enable marker field detection from various camera distances, thus increasing the camera movement freedom. Several marker field designs were experimentally created and their detection properties were tested. A new solution to marker field design is introduced. For this solution a~synthesis algorithm of the marker field is described and implemented. Changes to an existing Uniform Marker Field detection algorithm are proposed, so that the detection algorithm can be used with the marker fields introduced in this work.
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Image processing GUI in AR glasses
Sušovský, Ondřej ; Honec, Peter (referee) ; Janáková, Ilona (advisor)
This thesis discusses AR systems, especially systems made with VR headsets, and an issue of controlling them. As a part of this thesis, application, that demonstrates the control of the AR system through the hand detected in the user’s view, was created. This application offers preliminary analysis of a scene chosen by the user. Preliminary analysis consists of basic preprocessing and segmentation operations.
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Application of Augmented Reality: Measurement of Object Dimensions
Karásek, Miroslav ; Beran, Vítězslav (referee) ; Herout, Adam (advisor)
The goal of this diploma thesis is design and implementation of an application for automated measurement of objects in augmented reality. It focuses on automating the entire process, so that the user carries out the fewest number of manual actions. The proposed interface divides the measurement into several steps in which it gives the user instructions to progress to the next stage. The result is an Android application with ARCore technology. Is capable of determining the minimal bounding box of an object of a general shape lying on a horizontal surface. Measure error depends on ambient conditions and is in units of percent.
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Application of Augmented Reality: Measurement of Object Dimensions
Karásek, Miroslav ; Beran, Vítězslav (referee) ; Herout, Adam (advisor)
The goal of this diploma thesis is design and implementation of an application for automated measurement of objects in augmented reality. It focuses on automating the entire process, so that the user carries out the fewest number of manual actions. The proposed interface divides the measurement into several steps in which it gives the user instructions to progress to the next stage. The result is an Android application with ARCore technology. Is capable of determining the minimal bounding box of an object of a general shape lying on a horizontal surface. Measure error depends on ambient conditions and is in units of percent.
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Image processing GUI in AR glasses
Sušovský, Ondřej ; Honec, Peter (referee) ; Janáková, Ilona (advisor)
This thesis discusses AR systems, especially systems made with VR headsets, and an issue of controlling them. As a part of this thesis, application, that demonstrates the control of the AR system through the hand detected in the user’s view, was created. This application offers preliminary analysis of a scene chosen by the user. Preliminary analysis consists of basic preprocessing and segmentation operations.
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Innovation of Uniform Marker Fields for Allowing Better Scale Freedom
Studený, Petr ; Zachariáš, Michal (referee) ; Herout, Adam (advisor)
This work introduces innovations to the Uniform Marker Fields which cover a~large-scale planar area and are composed of mutually overlapping partial markers. The goal of this work is to enable marker field detection from various camera distances, thus increasing the camera movement freedom. Several marker field designs were experimentally created and their detection properties were tested. A new solution to marker field design is introduced. For this solution a~synthesis algorithm of the marker field is described and implemented. Changes to an existing Uniform Marker Field detection algorithm are proposed, so that the detection algorithm can be used with the marker fields introduced in this work.
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