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Geometrijske meritve strehe s pomočjo brezpilotnega letalnika
ID Štefin, Jan (Author), ID Slavič, Janko (Mentor) More about this mentor... This link opens in a new window, ID Jezeršek, Matija (Comentor)

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Abstract
V diplomski nalogi so predstavljene meritve strehe, ki so bile izmerjene z uporabo brezpilotnega letalnika in lastne Python kode. Ozadje meritev temelji na določanju koordinat preko hitrosti in časa. Preko metode Scale-Invariant Feature Transform so glede na okoliške točke na dveh različnih slikah bili poiskani ujemajoči se deli ter odstranjene točke, neskladne z izbranim modelom slikanja z več pogledi. Poiskane oziroma izračunane so bile tudi rotacijske in translacijske matrike in s pomočjo triangulacije je rekonstruirana lega opazovanih točk v 3D koordinatnem sistemu. Na koncu je bila določena razdalja le med izbranimi točkami, ki ležijo na robu strehe. Rezultat diplomske naloge so meritve strehe, ki jih s pomočjo Pyhton kode program samodejno določi, odstopanja od dejanskih meritev pa v povprečji niso večja kot pol metra.

Language:Slovenian
Keywords:brezpilotni letalnik, računalniški vid, umetna inteligenca, meritve strehe, OpenCV, SIFT, triangulacija
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FS - Faculty of Mechanical Engineering
Place of publishing:Ljubljana
Publisher:[J. Štefin]
Year:2021
Number of pages:XXII, 42, [2] str.
PID:20.500.12556/RUL-132926 This link opens in a new window
UDC:629.014.9:004.8:528.3(043.2)
COBISS.SI-ID:85014019 This link opens in a new window
Publication date in RUL:06.11.2021
Views:1010
Downloads:146
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Secondary language

Language:English
Title:Geometric measurements of the housing roof using an unmanned aerial vehicle
Abstract:
Our research presents an image-based rooftop measurement system used in an unmanned aerial vehicle controlled by Python code. The background of our measurements was based on spatial data reconstruction, using multiple images taken by an unmanned aerial vehicle, while taking into consideration the known positions of the aircraft. Through the Scale-Invariant Feature Transform method, matching parts in two different images were found, taking into consideration the surrounding points, while disturbing points were removed. The rotation and translation matrices were calculated and triangulation to reconstruct the position of the observed points in a 3D coordinate system was used. Finally, the points located at the very edge of the roof were selected and by that the distance between them was determined. The final task resulted in roof measurements that are automatically determined by the software using Python code, with deviations from ground-truth averaging no more than half a metre.

Keywords:unmanned aeriel vehicle (UAV), computer vision (CV), artificial intelligence (AI), roof measurement, scale-invariant feature transform (SIFT), open source computer vison libary (OpenCV), triangulation

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