Merjenje višine vodne gladine aeriranega toka z lidarjem

Črnilec Kesič, Žiga

Merjenje višine vodne gladine aeriranega toka z lidarjem
ID Črnilec Kesič, Žiga (Author), ID Hočevar, Marko (Mentor) More about this mentor... This link opens in a new window

, ID Rak, Gašper (Comentor)

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Abstract

Diplomska naloga obravnava delovanja komercialnega točkovnega LIDAR-a s časovno odvisnim izhodom. Pri skeniranju vodnih teles z LIDAR tehnologijo se pogosto zgodi, da laserski žarki predrejo vodno gladino in ne podajo točne meritve. Zasnovali in izdelali smo merilno postajo z eksperimentalnim valjem, napolnjenim z vodo, ki smo ji z vpihovanjem zraka pri različnih pogojih ustvarjali aerirano vodno gladino. Na postajo smo vgradili LIDAR ter sistem za posnemanje fotografij. Analizirali smo korelacijsko funkcijo, ki jo LIDAR uporablja za pretvorbo podatkov v razdaljo. S primerjavo slik ter rezultatov meritev z LIDAR-om smo pokazali, da večja koncentracija vodnih mehurčkov ustvari dovolj strjeno vodno površino, ki preprečuje laserskemu žarku penetracijo v vodni volumen.

Language:	Slovenian
Keywords:	LIDAR, aeriran tok, vodna gladina, merjenje višine, laboratorijski eksperiment
Work type:	Bachelor thesis/paper
Typology:	2.11 - Undergraduate Thesis
Organization:	FS - Faculty of Mechanical Engineering
Place of publishing:	Ljubljana
Publisher:	[Ž. Črnilec Kesič]
Year:	2022
Number of pages:	XXII, 50 str.
PID:	20.500.12556/RUL-139766
UDC:	531.717.3:528.8.044.6(043.2)
COBISS.SI-ID:	136399363
Publication date in RUL:	07.09.2022
Views:	634
Downloads:	47
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Abstract:
Language:	English
Title:	Measurement of water level in aerated stream with lidar
The bachelor’s thesis deals with the performance of a commercial point LIDAR with time-dependent output. When scanning water bodies with LIDAR technology, it often happens that laser beams penetrate the water surface and do not give an accurate measurement. We designed and built a measurement station with an experimental cylinder filled with water to which we created an aerated water surface by blowing air under different conditions. The station was equipped with a LIDAR and a photo imaging system. We analyzed the correlation function used by LIDAR to convert the data into the distance. By comparing the images and the LIDAR measurements, we showed that a higher concentration of water bubbles creates a sufficiently hardened water surface to prevent the laser beam from penetrating the water volume.
Keywords:	LIDAR, aerated water flow, water level, measurement of hight, laboratory experiment

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