magistrsko delo št.: 115/II. GIG
Lidija Dugon (Author), Dejan Grigillo (Mentor), Tilen Urbančič (Co-mentor), Klemen Kozmus Trajkovski (Co-mentor)

Abstract

V raziskovalnem delu obravnavamo gradbene deponije na širšem območju Štefanje Gore. Opisali smo način obdelave fotografij cikličnega aerosnemanja Slovenije. S fotogrametričnimi metodami smo izdelali ortofote in digitalne modele reliefa. Te uporabimo za odkrivanje na novo vzpostavljenih deponij gradbenega materiala. Eno izmed deponij smo zajeli z daljinsko vodenim letalnikom. Fotografije terena smo obdelali s fotogrametričnimi metodami in izdelali gost oblak točk območja deponije. Tega smo uporabili za izdelavo digitalnega modela reliefa. Analizo sprememb terena smo naredili na podlagi primerjave dveh digitalnih modelov reliefa iz različnih časovnih obdobij. Spremembe terena smo prikazali na karti in izračunali prostornine nasutega materiala.

Keywords

geodezija;magistrska dela;GIG;daljinsko vodeni letalnik;CAS;digitalni model reliefa;spremembe površja;prostornina;gosto slikovno ujemanje;redek oblak točk;gosti oblak točk;

Data

Language: Slovenian
Year of publishing:
Typology: 2.09 - Master's Thesis
Organization: UL FGG - Faculty of Civil and Geodetic Engineering
Publisher: [L. Dugon]
UDC: 528.7/.8:624.13(497.4)(043.3)
COBISS: 37608195 Link will open in a new window
Views: 477
Downloads: 135
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Other data

Secondary language: English
Secondary title: Using photogrammetry data for detecting and monitoring landfills
Secondary abstract: In the research work we analyse construction material landfills the wider area of Štefanja Gora. We have described the method of processing photographs of cyclic aerial photography of Slovenia. With photogrammetric methods we have produced orthophotos and digital elevation models. We have used them for discovering construction material landfills. In one case, we have discovered the area of a permanent landfill. With an unmanned aerial vehicle, we have captured terrain data in two time periods. We have used photogrammetry methods to process captured terrain data and produce point cloud. We have used it to make a digital elevation model, that was used for surface change analyses. Based on two digital elevation models in two time periods, we have created a map with the changes and calculated volumes of the filled construction material.
Secondary keywords: geodesy;master thesis;unmanned aerial vehicle;cyclic aerial survey of Slovenia;digital terrain model;surface changes;volume;sparse point cloud;dense point cloud;
Type (COBISS): Master's thesis/paper
Thesis comment: Univ. v Ljubljani, Fak. za gradbeništvo in geodezijo
Pages: XII, 41 str., [6] str. pril.
ID: 12379722