Terestričko lasersko skeniranje i 3D modelovanje vetrogeneratora
Terrestrial laser scanning and 3D modelling of wind-turbine generator
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Društvo za obnovljive izvore energije, SMEITS
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Rastući trend reverznog inženjerstva, posebno u oblasti građevine, gde je akcenat na ob-novljivim izvorima energije, neposredno prati aktuelna rešenja mernih insturmenata, kao i softvera za procesuiranje dobijenih podataka, gde je neophodan precizan rezultat snimanja objekta. Terestričko lasersko skeniranje (TLS) i fotogrametrija kao savremene merne metode, daju vrlo precizne podatke o objektu, koji su baza za izradu tehničke dokumentacije, kreiranje 3D virtuelnih prototipova i njihove animacije, 3D štampe, provere geometrije, nosivosti, osunčanosti i drugih vrsta analiza. U ovom radu je dat prikaz rezultata geometrijskih analiza stubova vetrogeneratora i 3D modelovanja sa animaci-jom, koji su dobijeni na osnovu podataka TLS i fotogrametrije, uz poređenje preciznosti, sprovedenog tokom 2018. godine na lokalitetu Alibunar u Srbiji.
Reverse engineering growing trend, particularly in the domain of civil engineering, additionally focused on renewable energy resources, actively follows technological improvements of measuring instruments, as well as processing software solutions, both necessary for an accurate objects’ survey. Terrestrial laser scanning (TLS) and photogrammetric methods are contemporary standard for ob-taining very accurate point cloud data, as a base for technical documentation, creation of 3D virtual prototypes and their animation, 3D printing, geometry inspection, loads, insolation or other analyzes. This paper presents results of geometric analysis of wind turbine tower, its 3D modeling with animation, based on TLS and photogrammetric data, obtained during 2018 at Alibunar in Serbia.
Keywords:
Geometric analysis / Terrestrial laser scanning / Photogrammetry / Technical documentation / 3D modelling / Wind turbine towerSource:
Proceedings of International Conference on Renewable Electrical Power Sources - MKOIEE 6, 2018, 1, 213-220Publisher:
- Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS) - Društvo za obnovljive izvore energije
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GraFarTY - CONF AU - Kosić, Boris AU - Stojanović, Dijana AU - Dragović, Magdalena AU - Radosavljević, Marko AU - Stević, Zoran PY - 2018 UR - https://grafar.grf.bg.ac.rs/handle/123456789/1951 AB - Rastući trend reverznog inženjerstva, posebno u oblasti građevine, gde je akcenat na ob-novljivim izvorima energije, neposredno prati aktuelna rešenja mernih insturmenata, kao i softvera za procesuiranje dobijenih podataka, gde je neophodan precizan rezultat snimanja objekta. Terestričko lasersko skeniranje (TLS) i fotogrametrija kao savremene merne metode, daju vrlo precizne podatke o objektu, koji su baza za izradu tehničke dokumentacije, kreiranje 3D virtuelnih prototipova i njihove animacije, 3D štampe, provere geometrije, nosivosti, osunčanosti i drugih vrsta analiza. U ovom radu je dat prikaz rezultata geometrijskih analiza stubova vetrogeneratora i 3D modelovanja sa animaci-jom, koji su dobijeni na osnovu podataka TLS i fotogrametrije, uz poređenje preciznosti, sprovedenog tokom 2018. godine na lokalitetu Alibunar u Srbiji. AB - Reverse engineering growing trend, particularly in the domain of civil engineering, additionally focused on renewable energy resources, actively follows technological improvements of measuring instruments, as well as processing software solutions, both necessary for an accurate objects’ survey. Terrestrial laser scanning (TLS) and photogrammetric methods are contemporary standard for ob-taining very accurate point cloud data, as a base for technical documentation, creation of 3D virtual prototypes and their animation, 3D printing, geometry inspection, loads, insolation or other analyzes. This paper presents results of geometric analysis of wind turbine tower, its 3D modeling with animation, based on TLS and photogrammetric data, obtained during 2018 at Alibunar in Serbia. PB - Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS) - Društvo za obnovljive izvore energije C3 - Proceedings of International Conference on Renewable Electrical Power Sources - MKOIEE 6 T1 - Terestričko lasersko skeniranje i 3D modelovanje vetrogeneratora T1 - Terrestrial laser scanning and 3D modelling of wind-turbine generator EP - 220 SP - 213 VL - 1 UR - https://hdl.handle.net/21.15107/rcub_grafar_1951 ER -
@conference{ author = "Kosić, Boris and Stojanović, Dijana and Dragović, Magdalena and Radosavljević, Marko and Stević, Zoran", year = "2018", abstract = "Rastući trend reverznog inženjerstva, posebno u oblasti građevine, gde je akcenat na ob-novljivim izvorima energije, neposredno prati aktuelna rešenja mernih insturmenata, kao i softvera za procesuiranje dobijenih podataka, gde je neophodan precizan rezultat snimanja objekta. Terestričko lasersko skeniranje (TLS) i fotogrametrija kao savremene merne metode, daju vrlo precizne podatke o objektu, koji su baza za izradu tehničke dokumentacije, kreiranje 3D virtuelnih prototipova i njihove animacije, 3D štampe, provere geometrije, nosivosti, osunčanosti i drugih vrsta analiza. U ovom radu je dat prikaz rezultata geometrijskih analiza stubova vetrogeneratora i 3D modelovanja sa animaci-jom, koji su dobijeni na osnovu podataka TLS i fotogrametrije, uz poređenje preciznosti, sprovedenog tokom 2018. godine na lokalitetu Alibunar u Srbiji., Reverse engineering growing trend, particularly in the domain of civil engineering, additionally focused on renewable energy resources, actively follows technological improvements of measuring instruments, as well as processing software solutions, both necessary for an accurate objects’ survey. Terrestrial laser scanning (TLS) and photogrammetric methods are contemporary standard for ob-taining very accurate point cloud data, as a base for technical documentation, creation of 3D virtual prototypes and their animation, 3D printing, geometry inspection, loads, insolation or other analyzes. This paper presents results of geometric analysis of wind turbine tower, its 3D modeling with animation, based on TLS and photogrammetric data, obtained during 2018 at Alibunar in Serbia.", publisher = "Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS) - Društvo za obnovljive izvore energije", journal = "Proceedings of International Conference on Renewable Electrical Power Sources - MKOIEE 6", title = "Terestričko lasersko skeniranje i 3D modelovanje vetrogeneratora, Terrestrial laser scanning and 3D modelling of wind-turbine generator", pages = "220-213", volume = "1", url = "https://hdl.handle.net/21.15107/rcub_grafar_1951" }
Kosić, B., Stojanović, D., Dragović, M., Radosavljević, M.,& Stević, Z.. (2018). Terestričko lasersko skeniranje i 3D modelovanje vetrogeneratora. in Proceedings of International Conference on Renewable Electrical Power Sources - MKOIEE 6 Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS) - Društvo za obnovljive izvore energije., 1, 213-220. https://hdl.handle.net/21.15107/rcub_grafar_1951
Kosić B, Stojanović D, Dragović M, Radosavljević M, Stević Z. Terestričko lasersko skeniranje i 3D modelovanje vetrogeneratora. in Proceedings of International Conference on Renewable Electrical Power Sources - MKOIEE 6. 2018;1:213-220. https://hdl.handle.net/21.15107/rcub_grafar_1951 .
Kosić, Boris, Stojanović, Dijana, Dragović, Magdalena, Radosavljević, Marko, Stević, Zoran, "Terestričko lasersko skeniranje i 3D modelovanje vetrogeneratora" in Proceedings of International Conference on Renewable Electrical Power Sources - MKOIEE 6, 1 (2018):213-220, https://hdl.handle.net/21.15107/rcub_grafar_1951 .