Application of digital graphic tools and contactless measuring instruments in 3D scene reconstruction
Аутори
Dragović, MagdalenaČučaković, Aleksandar
Davidović, Milena
Pandžić, Jelena
Božić, Mirjana
Vasiljević, Darko
Srećković, Milesa
Конференцијски прилог (Објављена верзија)
,
Centralni institut za konzervaciju i Naučno društvo za razvoj i afirmaciju novih tehnologija
Метаподаци
Приказ свих података о документуАпстракт
Innovative technologies often join their methodologies, instruments and techniques in solving various types of sophisticated problems in the area of architectural cultural heritage. Beside precise photogrammetric and laser scanning methods, the other less expensive and less time consuming methods for 3D scene/object reconstruction exist. The choice of tools/instruments and methodologies depends on large scale of factors (time or space limitations, finances, availability of instruments and graphic software, etc.). For particular project's purposes, 3D scene reconstruction, the chimney of an old brick factory in Belgrade with its surrounding buildings, was performed and presented as 3D digital model. The combination of 3D modeling graphic software tools,
measurement data recorded by laser based geodetic instrument and image data taken by digital camera were employed for architectural scene reconstruction. Since there was no available technical documentation, first part of the project in...cluded measurements of existing
objects. The task concerning precise dimensioning and spatial positioning, especially regarding the chimney was set. The scene (chimney and surrounding objects) was recorded by photo camera Canon Powershot A710 IS from the second floor of the Institute of Physics' building, while real geodetic measurements were obtained by geodetic instrument - total station Sokkia SET3130R3 positioned at the same view-point. Based on coordinates of some characteristic points on the chimney and the building, the scene was reconstructed and modeled in real dimensions in graphic software Auto CAD. Classical Descriptive geometry method for single image restitution was employed in addition for the purposes of correct spatial positioning (mutual relationships) of two recorded objects, and comparison of obtained results as well. This reconstruction project has its educational, cultural and documenting aims. Hence employed and gathered various disciplines and knowledge gave an adequate solution of practical engineering multidisciplinary task.
Кључне речи:
3D scene reconstruction / Contactless measurements / 3D digital graphic modelИзвор:
Zbornik izabranih radova i izvoda - Prvni naučni skup Multidisciplinarni pristup kulturnoj baštini, materijalima i tehnologijama, 2017, 42-47Издавач:
- Centralni institut za konzervaciju
- Naučno društvo za razvoj i afirmaciju novih tehnologija
Колекције
Институција/група
GraFarTY - CONF AU - Dragović, Magdalena AU - Čučaković, Aleksandar AU - Davidović, Milena AU - Pandžić, Jelena AU - Božić, Mirjana AU - Vasiljević, Darko AU - Srećković, Milesa PY - 2017 UR - https://grafar.grf.bg.ac.rs/handle/123456789/1947 AB - Innovative technologies often join their methodologies, instruments and techniques in solving various types of sophisticated problems in the area of architectural cultural heritage. Beside precise photogrammetric and laser scanning methods, the other less expensive and less time consuming methods for 3D scene/object reconstruction exist. The choice of tools/instruments and methodologies depends on large scale of factors (time or space limitations, finances, availability of instruments and graphic software, etc.). For particular project's purposes, 3D scene reconstruction, the chimney of an old brick factory in Belgrade with its surrounding buildings, was performed and presented as 3D digital model. The combination of 3D modeling graphic software tools, measurement data recorded by laser based geodetic instrument and image data taken by digital camera were employed for architectural scene reconstruction. Since there was no available technical documentation, first part of the project included measurements of existing objects. The task concerning precise dimensioning and spatial positioning, especially regarding the chimney was set. The scene (chimney and surrounding objects) was recorded by photo camera Canon Powershot A710 IS from the second floor of the Institute of Physics' building, while real geodetic measurements were obtained by geodetic instrument - total station Sokkia SET3130R3 positioned at the same view-point. Based on coordinates of some characteristic points on the chimney and the building, the scene was reconstructed and modeled in real dimensions in graphic software Auto CAD. Classical Descriptive geometry method for single image restitution was employed in addition for the purposes of correct spatial positioning (mutual relationships) of two recorded objects, and comparison of obtained results as well. This reconstruction project has its educational, cultural and documenting aims. Hence employed and gathered various disciplines and knowledge gave an adequate solution of practical engineering multidisciplinary task. PB - Centralni institut za konzervaciju PB - Naučno društvo za razvoj i afirmaciju novih tehnologija C3 - Zbornik izabranih radova i izvoda - Prvni naučni skup Multidisciplinarni pristup kulturnoj baštini, materijalima i tehnologijama T1 - Application of digital graphic tools and contactless measuring instruments in 3D scene reconstruction EP - 47 SP - 42 UR - https://hdl.handle.net/21.15107/rcub_grafar_1947 ER -
@conference{ author = "Dragović, Magdalena and Čučaković, Aleksandar and Davidović, Milena and Pandžić, Jelena and Božić, Mirjana and Vasiljević, Darko and Srećković, Milesa", year = "2017", abstract = "Innovative technologies often join their methodologies, instruments and techniques in solving various types of sophisticated problems in the area of architectural cultural heritage. Beside precise photogrammetric and laser scanning methods, the other less expensive and less time consuming methods for 3D scene/object reconstruction exist. The choice of tools/instruments and methodologies depends on large scale of factors (time or space limitations, finances, availability of instruments and graphic software, etc.). For particular project's purposes, 3D scene reconstruction, the chimney of an old brick factory in Belgrade with its surrounding buildings, was performed and presented as 3D digital model. The combination of 3D modeling graphic software tools, measurement data recorded by laser based geodetic instrument and image data taken by digital camera were employed for architectural scene reconstruction. Since there was no available technical documentation, first part of the project included measurements of existing objects. The task concerning precise dimensioning and spatial positioning, especially regarding the chimney was set. The scene (chimney and surrounding objects) was recorded by photo camera Canon Powershot A710 IS from the second floor of the Institute of Physics' building, while real geodetic measurements were obtained by geodetic instrument - total station Sokkia SET3130R3 positioned at the same view-point. Based on coordinates of some characteristic points on the chimney and the building, the scene was reconstructed and modeled in real dimensions in graphic software Auto CAD. Classical Descriptive geometry method for single image restitution was employed in addition for the purposes of correct spatial positioning (mutual relationships) of two recorded objects, and comparison of obtained results as well. This reconstruction project has its educational, cultural and documenting aims. Hence employed and gathered various disciplines and knowledge gave an adequate solution of practical engineering multidisciplinary task.", publisher = "Centralni institut za konzervaciju, Naučno društvo za razvoj i afirmaciju novih tehnologija", journal = "Zbornik izabranih radova i izvoda - Prvni naučni skup Multidisciplinarni pristup kulturnoj baštini, materijalima i tehnologijama", title = "Application of digital graphic tools and contactless measuring instruments in 3D scene reconstruction", pages = "47-42", url = "https://hdl.handle.net/21.15107/rcub_grafar_1947" }
Dragović, M., Čučaković, A., Davidović, M., Pandžić, J., Božić, M., Vasiljević, D.,& Srećković, M.. (2017). Application of digital graphic tools and contactless measuring instruments in 3D scene reconstruction. in Zbornik izabranih radova i izvoda - Prvni naučni skup Multidisciplinarni pristup kulturnoj baštini, materijalima i tehnologijama Centralni institut za konzervaciju., 42-47. https://hdl.handle.net/21.15107/rcub_grafar_1947
Dragović M, Čučaković A, Davidović M, Pandžić J, Božić M, Vasiljević D, Srećković M. Application of digital graphic tools and contactless measuring instruments in 3D scene reconstruction. in Zbornik izabranih radova i izvoda - Prvni naučni skup Multidisciplinarni pristup kulturnoj baštini, materijalima i tehnologijama. 2017;:42-47. https://hdl.handle.net/21.15107/rcub_grafar_1947 .
Dragović, Magdalena, Čučaković, Aleksandar, Davidović, Milena, Pandžić, Jelena, Božić, Mirjana, Vasiljević, Darko, Srećković, Milesa, "Application of digital graphic tools and contactless measuring instruments in 3D scene reconstruction" in Zbornik izabranih radova i izvoda - Prvni naučni skup Multidisciplinarni pristup kulturnoj baštini, materijalima i tehnologijama (2017):42-47, https://hdl.handle.net/21.15107/rcub_grafar_1947 .