TY  - JOUR
AU  - Žujović, Maša
AU  - Milošević, Jelena
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/2020
AB  - The interest in pattern geometry and its application to architecture may be
   seen throughout history. While some authors were fascinated by pattern
   aesthetics, others were focused on their effectiveness and underlying
   principles of pattern formation. In continuing with the work of the second
   group of authors, this paper reviews opportunities for efficient ways of
   implementing patterns in the design of architectural elements, supported by
   recent developments in parametric design and digital fabrication techniques.
   This paper aims to analyze pattern configurations found in nature in order
   to determine the underlying generation principles and the potential of their
   application for 3D printed slab systems. Using case study methodology,
   selected patterns will be applied in developing a generative parametric
   design system, which will further be tested in creating and (small-scale)
   fabricating ribbed slab elements. The result of the research is the
   generalization of a design approach based on principles of natural pattern
   formation to produce sustainable design solutions that rely on the
   transposition of the inherent efficiency of natural systems, such as low
   energy or material consumption.
PB  - University of Niš
T2  - Facta universitatis - series: Architecture and Civil Engineering
T1  - Parametric design of 3D printed ribbed slab system based on nature-inspired patterns
DO  - 10.2298/FUACE230630025Z
ER  - 

@article{
author = "Žujović, Maša and Milošević, Jelena",
year = "2023",
abstract = "The interest in pattern geometry and its application to architecture may be
   seen throughout history. While some authors were fascinated by pattern
   aesthetics, others were focused on their effectiveness and underlying
   principles of pattern formation. In continuing with the work of the second
   group of authors, this paper reviews opportunities for efficient ways of
   implementing patterns in the design of architectural elements, supported by
   recent developments in parametric design and digital fabrication techniques.
   This paper aims to analyze pattern configurations found in nature in order
   to determine the underlying generation principles and the potential of their
   application for 3D printed slab systems. Using case study methodology,
   selected patterns will be applied in developing a generative parametric
   design system, which will further be tested in creating and (small-scale)
   fabricating ribbed slab elements. The result of the research is the
   generalization of a design approach based on principles of natural pattern
   formation to produce sustainable design solutions that rely on the
   transposition of the inherent efficiency of natural systems, such as low
   energy or material consumption.",
publisher = "University of Niš",
journal = "Facta universitatis - series: Architecture and Civil Engineering",
title = "Parametric design of 3D printed ribbed slab system based on nature-inspired patterns",
doi = "10.2298/FUACE230630025Z"
}

Žujović, M.,& Milošević, J.. (2023). Parametric design of 3D printed ribbed slab system based on nature-inspired patterns. in Facta universitatis - series: Architecture and Civil Engineering
University of Niš..
https://doi.org/10.2298/FUACE230630025Z

Žujović M, Milošević J. Parametric design of 3D printed ribbed slab system based on nature-inspired patterns. in Facta universitatis - series: Architecture and Civil Engineering. 2023;.
doi:10.2298/FUACE230630025Z .

Žujović, Maša, Milošević, Jelena, "Parametric design of 3D printed ribbed slab system based on nature-inspired patterns" in Facta universitatis - series: Architecture and Civil Engineering (2023),
https://doi.org/10.2298/FUACE230630025Z . .

TY  - CONF
AU  - Milošević, Jelena
AU  - Đukanović, Ljiljana
AU  - Živković, Milijana
AU  - Žujović, Maša
AU  - Gavrilović, Marko
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1282
AB  - The paper focuses on the challenges of the relationship between architecture and artificial intelligence
(AI), in particular, the potential of this technology to support architects' creative design processes in the
form of augmented intelligence. Conceptual architectural design is an intricate process that produces
new concepts by using prior knowledge, experience, intuition, and creativity. Artificial intelligence should
not be used during the conceptual design stage with the goal of solving a problem in a predefined search
space. Instead, potential solutions and design requirements should be explored using this technology.
The suggested approach avoids preconceived solutions and psychological inertia attributed to the designer's finite experience. The paper gives a brief critical review of the application of AI in an architectural context, especially in conceptual design. The review emphasizes changes in the design process brought about by cutting-edge strategies, methods, and tools based on AI. Further, research by design is presented to illustrate the possible use of biologically inspired algorithms in producing innovative design proposals. The applied strategy in architectural design production was based on the human-machine interface and interaction (HMI&I). Symbiotic human-machine interaction in the design process facilitates the emergence of automated compositions that display novel and unexpected forms, detail, materiality, structure, functionality, and aesthetics. This study allowed us to explore peculiar architectural design methodologies and the potential of digitally intelligent architecture.
PB  - Faculty of Technical Sciences, University of Novi Sad
PB  - Serbian Society for Geometry and Graphics SUGIG
C3  - Proceedings: Geometry, graphics and design in the digital age, The 9th International Scientific Conference on Geometry and Graphics MoNGeometrija 2023
T1  - Automated compositions: artificial intelligence aided conceptual design explorations in architecture
SP  - 103
EP  - 115
UR  - https://hdl.handle.net/21.15107/rcub_raf_1282
ER  - 

@conference{
author = "Milošević, Jelena and Đukanović, Ljiljana and Živković, Milijana and Žujović, Maša and Gavrilović, Marko",
year = "2023",
abstract = "The paper focuses on the challenges of the relationship between architecture and artificial intelligence
(AI), in particular, the potential of this technology to support architects' creative design processes in the
form of augmented intelligence. Conceptual architectural design is an intricate process that produces
new concepts by using prior knowledge, experience, intuition, and creativity. Artificial intelligence should
not be used during the conceptual design stage with the goal of solving a problem in a predefined search
space. Instead, potential solutions and design requirements should be explored using this technology.
The suggested approach avoids preconceived solutions and psychological inertia attributed to the designer's finite experience. The paper gives a brief critical review of the application of AI in an architectural context, especially in conceptual design. The review emphasizes changes in the design process brought about by cutting-edge strategies, methods, and tools based on AI. Further, research by design is presented to illustrate the possible use of biologically inspired algorithms in producing innovative design proposals. The applied strategy in architectural design production was based on the human-machine interface and interaction (HMI&I). Symbiotic human-machine interaction in the design process facilitates the emergence of automated compositions that display novel and unexpected forms, detail, materiality, structure, functionality, and aesthetics. This study allowed us to explore peculiar architectural design methodologies and the potential of digitally intelligent architecture.",
publisher = "Faculty of Technical Sciences, University of Novi Sad, Serbian Society for Geometry and Graphics SUGIG",
journal = "Proceedings: Geometry, graphics and design in the digital age, The 9th International Scientific Conference on Geometry and Graphics MoNGeometrija 2023",
title = "Automated compositions: artificial intelligence aided conceptual design explorations in architecture",
pages = "103-115",
url = "https://hdl.handle.net/21.15107/rcub_raf_1282"
}

Milošević, J., Đukanović, L., Živković, M., Žujović, M.,& Gavrilović, M.. (2023). Automated compositions: artificial intelligence aided conceptual design explorations in architecture. in Proceedings: Geometry, graphics and design in the digital age, The 9th International Scientific Conference on Geometry and Graphics MoNGeometrija 2023
Faculty of Technical Sciences, University of Novi Sad., 103-115.
https://hdl.handle.net/21.15107/rcub_raf_1282

Milošević J, Đukanović L, Živković M, Žujović M, Gavrilović M. Automated compositions: artificial intelligence aided conceptual design explorations in architecture. in Proceedings: Geometry, graphics and design in the digital age, The 9th International Scientific Conference on Geometry and Graphics MoNGeometrija 2023. 2023;:103-115.
https://hdl.handle.net/21.15107/rcub_raf_1282 .

Milošević, Jelena, Đukanović, Ljiljana, Živković, Milijana, Žujović, Maša, Gavrilović, Marko, "Automated compositions: artificial intelligence aided conceptual design explorations in architecture" in Proceedings: Geometry, graphics and design in the digital age, The 9th International Scientific Conference on Geometry and Graphics MoNGeometrija 2023 (2023):103-115,
https://hdl.handle.net/21.15107/rcub_raf_1282 .

TY  - JOUR
AU  - Živković, Milijana
AU  - Žujović, Maša
AU  - Milošević, Jelena
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1378
AB  - Artificial Intelligence (AI) and 3D printing (3DP) play considerable roles in what is known as the Fourth Industrial Revolution, by developing data- and machine-intelligence-based integrated production technologies. In architecture, this shift was induced by increasingly complex design requirements, posing important challenges for real-world design implementation, large-scale structure fabrication, and production quality standardization. The study systematically reviews the application of AI techniques in all stages of creating 3D-printed architectural structures and provides a comprehensive image of the development in the field. The research goals are to (1) offer a comprehensive critical analysis of the body of literature; (2) identify and categorize approaches to integrating AI in the production of 3D-printed structures; (3) identify and discuss challenges and opportunities of AI integration in architectural production of 3D-printed structures; and (4) identify research gaps and provide recommendations for future research. The findings indicate that AI is an emerging addition to the 3DP process, mainly transforming it through the real-time adjustment of the design or printing parameters, enhanced printing quality control, or prediction and optimization of key design features. However, the potential of the application of AI in large-scale architectural 3D printing still needs to be explored. Lastly, the study emphasizes the necessity of redefining traditional field boundaries, opening new opportunities for intelligent architectural production.
PB  - Multidisciplinary Digital Publishing Institute- MDPI
T1  - Architectural 3D-Printed Structures Created Using Artificial Intelligence: A Review of Techniques and Applications
VL  - 13
IS  - 19
SP  - 10671
DO  - 10.3390/ app131910671
ER  - 

@article{
author = "Živković, Milijana and Žujović, Maša and Milošević, Jelena",
year = "2023",
abstract = "Artificial Intelligence (AI) and 3D printing (3DP) play considerable roles in what is known as the Fourth Industrial Revolution, by developing data- and machine-intelligence-based integrated production technologies. In architecture, this shift was induced by increasingly complex design requirements, posing important challenges for real-world design implementation, large-scale structure fabrication, and production quality standardization. The study systematically reviews the application of AI techniques in all stages of creating 3D-printed architectural structures and provides a comprehensive image of the development in the field. The research goals are to (1) offer a comprehensive critical analysis of the body of literature; (2) identify and categorize approaches to integrating AI in the production of 3D-printed structures; (3) identify and discuss challenges and opportunities of AI integration in architectural production of 3D-printed structures; and (4) identify research gaps and provide recommendations for future research. The findings indicate that AI is an emerging addition to the 3DP process, mainly transforming it through the real-time adjustment of the design or printing parameters, enhanced printing quality control, or prediction and optimization of key design features. However, the potential of the application of AI in large-scale architectural 3D printing still needs to be explored. Lastly, the study emphasizes the necessity of redefining traditional field boundaries, opening new opportunities for intelligent architectural production.",
publisher = "Multidisciplinary Digital Publishing Institute- MDPI",
title = "Architectural 3D-Printed Structures Created Using Artificial Intelligence: A Review of Techniques and Applications",
volume = "13",
number = "19",
pages = "10671",
doi = "10.3390/ app131910671"
}

Živković, M., Žujović, M.,& Milošević, J.. (2023). Architectural 3D-Printed Structures Created Using Artificial Intelligence: A Review of Techniques and Applications. 
Multidisciplinary Digital Publishing Institute- MDPI., 13(19), 10671.
https://doi.org/10.3390/ app131910671

Živković M, Žujović M, Milošević J. Architectural 3D-Printed Structures Created Using Artificial Intelligence: A Review of Techniques and Applications. 2023;13(19):10671.
doi:10.3390/ app131910671 .

Živković, Milijana, Žujović, Maša, Milošević, Jelena, "Architectural 3D-Printed Structures Created Using Artificial Intelligence: A Review of Techniques and Applications", 13, no. 19 (2023):10671,
https://doi.org/10.3390/ app131910671 . .

TY  - CHAP
AU  - Milošević, Jelena
AU  - Nenadović, Aleksandra
AU  - Žujović, Maša
AU  - Gavrilović, Marko
AU  - Živković, Milijana
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1383
AB  - The advances and proliferation of digital technologies impact architectural practice asking for a revision of not only design production but also the education of future professionals. Using a case study from the University of Belgrade—Faculty of Architecture, this paper examines the efficient application of 3D printing as a design tool and opportunities for the implementation of this technology in architectural education. The research goal was to establish an educational framework for the studio course that was appropriate to local settings, starting with a review of educational approaches and the usage of 3D printing in architectural design. Starting with the premise that there is a bidirectional relationship between design and its tool, the educational framework for architectural design studio was proposed, tested in real educational settings, and evaluated. The results indicate that the use of 3D printing in studio course proved to be an effective tool for design exploration and presentation that supports (1) linking the logical way of thinking that requires parametric modeling with concept-based thinking; (2) change in mindset that occurs in the design process when students have a physical model in front of them to assess; and (3) improvement of deep understanding of spatial cognition among students as well as their competencies related to the use of the specific technology in the design process. The paper demonstrates how 3D printing technology improved educational methods, impacted students’ experiences in the design process, and elevated design exploration to previously unattainable levels of materiality, detail, complexity, accuracy, and aesthetics.
PB  - Berlin: Springer
T2  - Technological Imagination in the Green and Digital Transition. CONF. ITECH 2022. The Urban Book Series
T1  - Reworking Studio Design Education Driven by 3D Printing Technologies
SP  - 335
EP  - 344
DO  - 10.1007/978-3-031-29515-7_30
ER  - 

@inbook{
author = "Milošević, Jelena and Nenadović, Aleksandra and Žujović, Maša and Gavrilović, Marko and Živković, Milijana",
year = "2023",
abstract = "The advances and proliferation of digital technologies impact architectural practice asking for a revision of not only design production but also the education of future professionals. Using a case study from the University of Belgrade—Faculty of Architecture, this paper examines the efficient application of 3D printing as a design tool and opportunities for the implementation of this technology in architectural education. The research goal was to establish an educational framework for the studio course that was appropriate to local settings, starting with a review of educational approaches and the usage of 3D printing in architectural design. Starting with the premise that there is a bidirectional relationship between design and its tool, the educational framework for architectural design studio was proposed, tested in real educational settings, and evaluated. The results indicate that the use of 3D printing in studio course proved to be an effective tool for design exploration and presentation that supports (1) linking the logical way of thinking that requires parametric modeling with concept-based thinking; (2) change in mindset that occurs in the design process when students have a physical model in front of them to assess; and (3) improvement of deep understanding of spatial cognition among students as well as their competencies related to the use of the specific technology in the design process. The paper demonstrates how 3D printing technology improved educational methods, impacted students’ experiences in the design process, and elevated design exploration to previously unattainable levels of materiality, detail, complexity, accuracy, and aesthetics.",
publisher = "Berlin: Springer",
journal = "Technological Imagination in the Green and Digital Transition. CONF. ITECH 2022. The Urban Book Series",
booktitle = "Reworking Studio Design Education Driven by 3D Printing Technologies",
pages = "335-344",
doi = "10.1007/978-3-031-29515-7_30"
}

Milošević, J., Nenadović, A., Žujović, M., Gavrilović, M.,& Živković, M.. (2023). Reworking Studio Design Education Driven by 3D Printing Technologies. in Technological Imagination in the Green and Digital Transition. CONF. ITECH 2022. The Urban Book Series
Berlin: Springer., 335-344.
https://doi.org/10.1007/978-3-031-29515-7_30

Milošević J, Nenadović A, Žujović M, Gavrilović M, Živković M. Reworking Studio Design Education Driven by 3D Printing Technologies. in Technological Imagination in the Green and Digital Transition. CONF. ITECH 2022. The Urban Book Series. 2023;:335-344.
doi:10.1007/978-3-031-29515-7_30 .

Milošević, Jelena, Nenadović, Aleksandra, Žujović, Maša, Gavrilović, Marko, Živković, Milijana, "Reworking Studio Design Education Driven by 3D Printing Technologies" in Technological Imagination in the Green and Digital Transition. CONF. ITECH 2022. The Urban Book Series (2023):335-344,
https://doi.org/10.1007/978-3-031-29515-7_30 . .

TY  - JOUR
AU  - Živković, Milijana
AU  - Žujović, Maša
AU  - Milošević, Jelena
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1469
AB  - In recent decades, building methods such as 3D printing have been increasingly
researched for the design and fabrication of various architectural elements. Artificial
Intelligence is another rapidly developing technology whose potential in the building
industry is continuously being explored. This paper’s objective lies in mapping out the
field of existing Artificial Intelligence tools for large-scale 3D printing, searching for
possible applications throughout the different development stages including the prefabrication
phase with structural design, optimization, behavior simulations, and
predictions, as well as the production phase through the real-time monitoring of the
process. In this study, different types of Artificial Intelligence (such as machine learning,
deep learning, and computer vision), have been identified regarding their role in 3D
printing to assess its potentials, limitations, and the present research gaps. Finally,
potential research directions and emerging topics are presented. The study's findings
increase the understanding of Artificial Intelligence techniques and applications in the 3D
printing process and can aid in choosing and implementing the most promising ones in
further research.
PB  - Građevinsko-arhitektonski fakultet Univerziteta u Nišu
T2  - Zbornik radova Građevinsko-arhitektonskog fakulteta = Journal of the Faculty of Civil Engineering and Architecture
T1  - Intelligent tools for large-scale 3D printing: a scoping review
VL  - 38
SP  - 88
EP  - 99
UR  - https://hdl.handle.net/21.15107/rcub_raf_1469
ER  - 

@article{
author = "Živković, Milijana and Žujović, Maša and Milošević, Jelena",
year = "2023",
abstract = "In recent decades, building methods such as 3D printing have been increasingly
researched for the design and fabrication of various architectural elements. Artificial
Intelligence is another rapidly developing technology whose potential in the building
industry is continuously being explored. This paper’s objective lies in mapping out the
field of existing Artificial Intelligence tools for large-scale 3D printing, searching for
possible applications throughout the different development stages including the prefabrication
phase with structural design, optimization, behavior simulations, and
predictions, as well as the production phase through the real-time monitoring of the
process. In this study, different types of Artificial Intelligence (such as machine learning,
deep learning, and computer vision), have been identified regarding their role in 3D
printing to assess its potentials, limitations, and the present research gaps. Finally,
potential research directions and emerging topics are presented. The study's findings
increase the understanding of Artificial Intelligence techniques and applications in the 3D
printing process and can aid in choosing and implementing the most promising ones in
further research.",
publisher = "Građevinsko-arhitektonski fakultet Univerziteta u Nišu",
journal = "Zbornik radova Građevinsko-arhitektonskog fakulteta = Journal of the Faculty of Civil Engineering and Architecture",
title = "Intelligent tools for large-scale 3D printing: a scoping review",
volume = "38",
pages = "88-99",
url = "https://hdl.handle.net/21.15107/rcub_raf_1469"
}

Živković, M., Žujović, M.,& Milošević, J.. (2023). Intelligent tools for large-scale 3D printing: a scoping review. in Zbornik radova Građevinsko-arhitektonskog fakulteta = Journal of the Faculty of Civil Engineering and Architecture
Građevinsko-arhitektonski fakultet Univerziteta u Nišu., 38, 88-99.
https://hdl.handle.net/21.15107/rcub_raf_1469

Živković M, Žujović M, Milošević J. Intelligent tools for large-scale 3D printing: a scoping review. in Zbornik radova Građevinsko-arhitektonskog fakulteta = Journal of the Faculty of Civil Engineering and Architecture. 2023;38:88-99.
https://hdl.handle.net/21.15107/rcub_raf_1469 .

Živković, Milijana, Žujović, Maša, Milošević, Jelena, "Intelligent tools for large-scale 3D printing: a scoping review" in Zbornik radova Građevinsko-arhitektonskog fakulteta = Journal of the Faculty of Civil Engineering and Architecture, 38 (2023):88-99,
https://hdl.handle.net/21.15107/rcub_raf_1469 .

TY  - JOUR
AU  - Milošević, Jelena
AU  - Rakonjac, Ivana
AU  - Josifovski, Andrej
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1381
AB  - In response to the COVID-19 global pandemic’s effects on the educational landscape, information and communication technologies have been used to implement diverse curriculum contents and provide a transition of traditional learning activities into remote or hybrid learning. This paper describes how a digital learning framework was implemented to transform a classroom-based architectural design studio into a setup that complements face-to-face and online activities, allowing for optimal operation under restricted conditions. The learning experience in this hybrid design studio was investigated using qualitative content analysis, while data from pre- and post-course surveys, and data from the learning platform’s analytics, provide insight into the participants’ perceptions of the course. Findings show that students’ assessments of hybrid learning are generally positive; however, further development of this pedagogy could provide even better responses to accessibility, acquisition, and operation challenges. The study offers a perspective on how to adapt learning in order to provide continuity of educational process beyond changing circumstances and could inform further reviewing and discussion on directions of long-term redefining of a studio design in post-pandemic times when teaching modes are likely to have a more significant online component.
PB  - Great Britain: TEMPUS Publications
T2  - International Journal of Engineering Education
T1  - Architectural Engineering Students’ Experiences in a Hybrid Design Studio
VL  - 39
IS  - 4
SP  - 921
EP  - 936
UR  - https://hdl.handle.net/21.15107/rcub_raf_1381
ER  - 

@article{
author = "Milošević, Jelena and Rakonjac, Ivana and Josifovski, Andrej",
year = "2023",
abstract = "In response to the COVID-19 global pandemic’s effects on the educational landscape, information and communication technologies have been used to implement diverse curriculum contents and provide a transition of traditional learning activities into remote or hybrid learning. This paper describes how a digital learning framework was implemented to transform a classroom-based architectural design studio into a setup that complements face-to-face and online activities, allowing for optimal operation under restricted conditions. The learning experience in this hybrid design studio was investigated using qualitative content analysis, while data from pre- and post-course surveys, and data from the learning platform’s analytics, provide insight into the participants’ perceptions of the course. Findings show that students’ assessments of hybrid learning are generally positive; however, further development of this pedagogy could provide even better responses to accessibility, acquisition, and operation challenges. The study offers a perspective on how to adapt learning in order to provide continuity of educational process beyond changing circumstances and could inform further reviewing and discussion on directions of long-term redefining of a studio design in post-pandemic times when teaching modes are likely to have a more significant online component.",
publisher = "Great Britain: TEMPUS Publications",
journal = "International Journal of Engineering Education",
title = "Architectural Engineering Students’ Experiences in a Hybrid Design Studio",
volume = "39",
number = "4",
pages = "921-936",
url = "https://hdl.handle.net/21.15107/rcub_raf_1381"
}

Milošević, J., Rakonjac, I.,& Josifovski, A.. (2023). Architectural Engineering Students’ Experiences in a Hybrid Design Studio. in International Journal of Engineering Education
Great Britain: TEMPUS Publications., 39(4), 921-936.
https://hdl.handle.net/21.15107/rcub_raf_1381

Milošević J, Rakonjac I, Josifovski A. Architectural Engineering Students’ Experiences in a Hybrid Design Studio. in International Journal of Engineering Education. 2023;39(4):921-936.
https://hdl.handle.net/21.15107/rcub_raf_1381 .

Milošević, Jelena, Rakonjac, Ivana, Josifovski, Andrej, "Architectural Engineering Students’ Experiences in a Hybrid Design Studio" in International Journal of Engineering Education, 39, no. 4 (2023):921-936,
https://hdl.handle.net/21.15107/rcub_raf_1381 .

TY  - CHAP
AU  - Milošević, Jelena
AU  - Graovac, Ognjen
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1382
AB  - Graphic statics is a well-established method for designing diverse typologies of architectural structures. Although this method has been in use since the 19th century, the advent of digital technologies contributed to its current, more widespread usage. This paper presents the application of 3D graphic statics for finding structural forms. Parametric design tools based on 3D graphic statics for explorations in a generative design process was employed. The explorations were implemented by the 3D Graphic Statics plugin developed for Grasshopper visual programming editor for the commercial computer-aided design (CAD) system Rhinoceros, commonly used by architects. The design outcomes confirm the effectiveness of the approach based on geometrical operation for designing efficient structural forms composed of elements in perfect geometrical equilibrium with external forces. Furthermore, graphical methods are intuitive and facilitate rapid statical calculations in the conceptual stage of the architectural design process. Moreover, the description of the design approach also allows for reflection on its methods, outcomes, and the interactions of designers with design tools throughout the design process. Finally, this study informs architects about the increasingly sophisticated design tools made available by digital technology to support architectural design and how these tools compare to older design mediums.
PB  - De Gruyter
T2  - Advances in Architectural Geometry 2023
T1  - An Approach to Designing Architectural Structures Using 3D Graphic Statics
SP  - 427
EP  - 439
DO  - 10.1515/9783111162683-032
ER  - 

@inbook{
author = "Milošević, Jelena and Graovac, Ognjen",
year = "2023",
abstract = "Graphic statics is a well-established method for designing diverse typologies of architectural structures. Although this method has been in use since the 19th century, the advent of digital technologies contributed to its current, more widespread usage. This paper presents the application of 3D graphic statics for finding structural forms. Parametric design tools based on 3D graphic statics for explorations in a generative design process was employed. The explorations were implemented by the 3D Graphic Statics plugin developed for Grasshopper visual programming editor for the commercial computer-aided design (CAD) system Rhinoceros, commonly used by architects. The design outcomes confirm the effectiveness of the approach based on geometrical operation for designing efficient structural forms composed of elements in perfect geometrical equilibrium with external forces. Furthermore, graphical methods are intuitive and facilitate rapid statical calculations in the conceptual stage of the architectural design process. Moreover, the description of the design approach also allows for reflection on its methods, outcomes, and the interactions of designers with design tools throughout the design process. Finally, this study informs architects about the increasingly sophisticated design tools made available by digital technology to support architectural design and how these tools compare to older design mediums.",
publisher = "De Gruyter",
journal = "Advances in Architectural Geometry 2023",
booktitle = "An Approach to Designing Architectural Structures Using 3D Graphic Statics",
pages = "427-439",
doi = "10.1515/9783111162683-032"
}

Milošević, J.,& Graovac, O.. (2023). An Approach to Designing Architectural Structures Using 3D Graphic Statics. in Advances in Architectural Geometry 2023
De Gruyter., 427-439.
https://doi.org/10.1515/9783111162683-032

Milošević J, Graovac O. An Approach to Designing Architectural Structures Using 3D Graphic Statics. in Advances in Architectural Geometry 2023. 2023;:427-439.
doi:10.1515/9783111162683-032 .

Milošević, Jelena, Graovac, Ognjen, "An Approach to Designing Architectural Structures Using 3D Graphic Statics" in Advances in Architectural Geometry 2023 (2023):427-439,
https://doi.org/10.1515/9783111162683-032 . .

TY  - JOUR
AU  - Josifovski, Andrej
AU  - Todorović, Nebojša
AU  - Milošević, Jelena
AU  - Veizović, Marko
AU  - Pantelić, Filip
AU  - Aškrabić, Marina
AU  - Vasov, Miomir
AU  - Rajčić, Aleksandar
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1384
AB  - This paper addresses the challenges in evaluating the structural performance of built structures using non-destructive methods and in situ tests. Such an examination of structural properties, without their sampling, is a diagnostic improvement, especially for historical heritage buildings, where it is not allowed to violate their physical integrity. Therefore, the research proposes a non-destructive testing method based on the equalization of the mechanically and non-destructively determined parameters of the strength of built-in timber. The research included three phases: (1) a preliminary examination; (2) a calibration procedure of the non-destructive method, and (3) in situ application of the established non-destructive method. The preliminary examination involved testing specimens using X-rays and ultrasonic waves by directing them, analogous to mechanical testing, in the fibers’ longitudinal, radial, and tangential directions. In the second phase, it was shown that equalizing the parameters of mechanical and non-destructive testing using ultrasound and X-rays of timber was feasible. Furthermore, mechanical calibration was conducted to establish an applicable non-destructive in situ method. Finally, in the third phase, an in situ assessment of timber architectural elements confirms the effectiveness of the suggested non-destructive approach in diagnosing architectural structures.
PB  - Multidisciplinary Digital Publishing Institute - MDPI
T1  - An Approach to In Situ Evaluation of Timber Structures Based on Equalization of Non-Destructive and Mechanical Test Parameters
VL  - 13
IS  - 6
SP  - 1405
DO  - 10.3390/buildings13061405
ER  - 

@article{
author = "Josifovski, Andrej and Todorović, Nebojša and Milošević, Jelena and Veizović, Marko and Pantelić, Filip and Aškrabić, Marina and Vasov, Miomir and Rajčić, Aleksandar",
year = "2023",
abstract = "This paper addresses the challenges in evaluating the structural performance of built structures using non-destructive methods and in situ tests. Such an examination of structural properties, without their sampling, is a diagnostic improvement, especially for historical heritage buildings, where it is not allowed to violate their physical integrity. Therefore, the research proposes a non-destructive testing method based on the equalization of the mechanically and non-destructively determined parameters of the strength of built-in timber. The research included three phases: (1) a preliminary examination; (2) a calibration procedure of the non-destructive method, and (3) in situ application of the established non-destructive method. The preliminary examination involved testing specimens using X-rays and ultrasonic waves by directing them, analogous to mechanical testing, in the fibers’ longitudinal, radial, and tangential directions. In the second phase, it was shown that equalizing the parameters of mechanical and non-destructive testing using ultrasound and X-rays of timber was feasible. Furthermore, mechanical calibration was conducted to establish an applicable non-destructive in situ method. Finally, in the third phase, an in situ assessment of timber architectural elements confirms the effectiveness of the suggested non-destructive approach in diagnosing architectural structures.",
publisher = "Multidisciplinary Digital Publishing Institute - MDPI",
title = "An Approach to In Situ Evaluation of Timber Structures Based on Equalization of Non-Destructive and Mechanical Test Parameters",
volume = "13",
number = "6",
pages = "1405",
doi = "10.3390/buildings13061405"
}

Josifovski, A., Todorović, N., Milošević, J., Veizović, M., Pantelić, F., Aškrabić, M., Vasov, M.,& Rajčić, A.. (2023). An Approach to In Situ Evaluation of Timber Structures Based on Equalization of Non-Destructive and Mechanical Test Parameters. 
Multidisciplinary Digital Publishing Institute - MDPI., 13(6), 1405.
https://doi.org/10.3390/buildings13061405

Josifovski A, Todorović N, Milošević J, Veizović M, Pantelić F, Aškrabić M, Vasov M, Rajčić A. An Approach to In Situ Evaluation of Timber Structures Based on Equalization of Non-Destructive and Mechanical Test Parameters. 2023;13(6):1405.
doi:10.3390/buildings13061405 .

Josifovski, Andrej, Todorović, Nebojša, Milošević, Jelena, Veizović, Marko, Pantelić, Filip, Aškrabić, Marina, Vasov, Miomir, Rajčić, Aleksandar, "An Approach to In Situ Evaluation of Timber Structures Based on Equalization of Non-Destructive and Mechanical Test Parameters", 13, no. 6 (2023):1405,
https://doi.org/10.3390/buildings13061405 . .

TY  - CHAP
AU  - Несторовић, Миодраг
AU  - Милошевић, Јелена
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1758
AB  - Ђорђе Злоковић (1927-2017) био је архитекта, грађевински инжењер, доктор техничких наука, универзитетски професор и редован члан Српске академије наука и уметности (САНУ). Научне области у оквиру којих је радио биле су конструктивни системи, теорија конструкција и оптимизација конструкција. Групно суперматрична метода коју је развио, а која је заснована на теорији група, омогућава решавање низа проблема у домену статике и стабилности конструкција знатно брже и једноставније у односу на позната решења. Као инжењер, конструктор, кроз своје пројекте и остварења развијао је нова техничка решења, на најсавременијим принципима, нарочито у области преднапрегнутих висећих конструкција, које је примењивао код хала распона 60 до 70 м. Злоковићева иновативна конструктерска решења карактеришу економичност, ефикасност и естетски квалитети. Осим науци и пракси Злоковић је био посвећен и педагошком раду. У наставни процес на Архитектонском факултету у Београду 1963. године уводи курсеве Конструктивни системи и Просторне структуре. Уважавајући значај животног дела академика Ђорђа Злоковића, и његове личности, овај текст приказује његов допринос средини у којој је живео и стварао, како у контексту времену тако и посредно путем утицаја.
PB  - Београд : САНУ
T2  - Живот и дело српских научника
T1  - Ђорђе Злоковић (1927‒2017)
VL  - 19
SP  - 351
EP  - 387
UR  - https://hdl.handle.net/21.15107/rcub_raf_1758
ER  - 

@inbook{
author = "Несторовић, Миодраг and Милошевић, Јелена",
year = "2023",
abstract = "Ђорђе Злоковић (1927-2017) био је архитекта, грађевински инжењер, доктор техничких наука, универзитетски професор и редован члан Српске академије наука и уметности (САНУ). Научне области у оквиру којих је радио биле су конструктивни системи, теорија конструкција и оптимизација конструкција. Групно суперматрична метода коју је развио, а која је заснована на теорији група, омогућава решавање низа проблема у домену статике и стабилности конструкција знатно брже и једноставније у односу на позната решења. Као инжењер, конструктор, кроз своје пројекте и остварења развијао је нова техничка решења, на најсавременијим принципима, нарочито у области преднапрегнутих висећих конструкција, које је примењивао код хала распона 60 до 70 м. Злоковићева иновативна конструктерска решења карактеришу економичност, ефикасност и естетски квалитети. Осим науци и пракси Злоковић је био посвећен и педагошком раду. У наставни процес на Архитектонском факултету у Београду 1963. године уводи курсеве Конструктивни системи и Просторне структуре. Уважавајући значај животног дела академика Ђорђа Злоковића, и његове личности, овај текст приказује његов допринос средини у којој је живео и стварао, како у контексту времену тако и посредно путем утицаја.",
publisher = "Београд : САНУ",
journal = "Живот и дело српских научника",
booktitle = "Ђорђе Злоковић (1927‒2017)",
volume = "19",
pages = "351-387",
url = "https://hdl.handle.net/21.15107/rcub_raf_1758"
}

Несторовић, М.,& Милошевић, Ј.. (2023). Ђорђе Злоковић (1927‒2017). in Живот и дело српских научника
Београд : САНУ., 19, 351-387.
https://hdl.handle.net/21.15107/rcub_raf_1758

Несторовић М, Милошевић Ј. Ђорђе Злоковић (1927‒2017). in Живот и дело српских научника. 2023;19:351-387.
https://hdl.handle.net/21.15107/rcub_raf_1758 .

Несторовић, Миодраг, Милошевић, Јелена, "Ђорђе Злоковић (1927‒2017)" in Живот и дело српских научника, 19 (2023):351-387,
https://hdl.handle.net/21.15107/rcub_raf_1758 .

TY  - JOUR
AU  - Žujović, Maša
AU  - Obradović, Radojko
AU  - Rakonjac, Ivana
AU  - Milošević, Jelena
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1353
AB  - The proliferation of digital technologies considerably changed the field of architecture. Digital fabrication pushes architecture into an unexpected new domain of previously unachievable complexity, detail, and materiality. Understanding these technologies’ impact can help direct future research, innovate design and construction processes, and improve the education of future professionals. However, comprehensive reviews offering a holistic perspective on the effects of 3D printing technologies on architecture are limited. Therefore, this study aims to provide a systematic review of state-of-the-art research on 3D printing technologies in architectural design and construction. The review was performed using three major databases, and selected peer-reviewed journal articles published in the last ten-year period were included in quantitative and qualitative analyses. Using bibliometric analysis, the research progress is summarized through the identified trend of the annual number of articles, prominent authors and co-authorship network, and key topics in the literature organized in three clusters. Further, content analysis of selected articles enabled coding cluster themes. Moreover, the analysis differentiated two categories of 3D printing technologies based on the scale of the system, elaborating their peculiarities in terms of materials, methods, and applications. Finally, challenges and promising directions for future work and research challenges are discussed.
PB  - MDPI
T2  - Buildings
T1  - 3D Printing Technologies in Architectural Design and Construction: A Systematic Literature Review
VL  - 12
IS  - 9
SP  - 1319
DO  - 10.3390/buildings12091319
ER  - 

@article{
author = "Žujović, Maša and Obradović, Radojko and Rakonjac, Ivana and Milošević, Jelena",
year = "2022",
abstract = "The proliferation of digital technologies considerably changed the field of architecture. Digital fabrication pushes architecture into an unexpected new domain of previously unachievable complexity, detail, and materiality. Understanding these technologies’ impact can help direct future research, innovate design and construction processes, and improve the education of future professionals. However, comprehensive reviews offering a holistic perspective on the effects of 3D printing technologies on architecture are limited. Therefore, this study aims to provide a systematic review of state-of-the-art research on 3D printing technologies in architectural design and construction. The review was performed using three major databases, and selected peer-reviewed journal articles published in the last ten-year period were included in quantitative and qualitative analyses. Using bibliometric analysis, the research progress is summarized through the identified trend of the annual number of articles, prominent authors and co-authorship network, and key topics in the literature organized in three clusters. Further, content analysis of selected articles enabled coding cluster themes. Moreover, the analysis differentiated two categories of 3D printing technologies based on the scale of the system, elaborating their peculiarities in terms of materials, methods, and applications. Finally, challenges and promising directions for future work and research challenges are discussed.",
publisher = "MDPI",
journal = "Buildings",
title = "3D Printing Technologies in Architectural Design and Construction: A Systematic Literature Review",
volume = "12",
number = "9",
pages = "1319",
doi = "10.3390/buildings12091319"
}

Žujović, M., Obradović, R., Rakonjac, I.,& Milošević, J.. (2022). 3D Printing Technologies in Architectural Design and Construction: A Systematic Literature Review. in Buildings
MDPI., 12(9), 1319.
https://doi.org/10.3390/buildings12091319

Žujović M, Obradović R, Rakonjac I, Milošević J. 3D Printing Technologies in Architectural Design and Construction: A Systematic Literature Review. in Buildings. 2022;12(9):1319.
doi:10.3390/buildings12091319 .

Žujović, Maša, Obradović, Radojko, Rakonjac, Ivana, Milošević, Jelena, "3D Printing Technologies in Architectural Design and Construction: A Systematic Literature Review" in Buildings, 12, no. 9 (2022):1319,
https://doi.org/10.3390/buildings12091319 . .

TY  - CHAP
AU  - Milošević, Jelena Ž.
AU  - Nenadović, Aleksandra S.
AU  - Žujović, Maša S.
AU  - Živković, Milijana D.
AU  - Zimović, Isidora A.
AU  - Gavrilović, Marko M.
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1386
AB  - This paper contributes to the research in the field of generative computational design of discrete assemblies and their implementations in constructing spatial structures in architecture. Works and research on discrete architecture and architectural ontology suggest that the considerable promise for a complex, open-ended, adaptable architecture could be a digital form of assembly based on parts. In this study, the topic of compositions made of discrete elements is researched from the perspective of the creative process. Respectively, the paper explores the possibility of using generative systems based on graph grammar formalism in the creation of adaptable spatial configurations in an architectural context. We tested this approach through design research in which a computational generative system was used as an embedded system for formal explorations. Starting from the specification of discrete elements/modules and their inherent attributes, then the definition of the composition rules and constraints, we applied the graph grammar formation procedure which, by a random selection of the modules and rules on each iteration of the additive process, generated a variety of complex spatial structures. The emergent discrete continuities exhibit new and unanticipated detail, materiality, structure, functionality, and aesthetics inherent to the design process augmented by human-machine interaction. The structural performance of these structures was evaluated using software based on the Finite Element Method (FEM), while the constructability was tested through the construction of small-scale prototypes. This theme enabled us to study specific design methodology, as well as to investigate the potential of digitally intelligent architecture.
AB  - Изазови са којима се архитектонско пројектовање суочава у дигиталној ери подразумевају повећање комплексности пројеката и захтевима за примену за ефикасних пројектантских методама и алата. Овај рад доприноси истраживањима у области генеративног рачунског пројектовања дискретних склопова и њиховој примени у изградњи просторних структура у архитектури. Дискретна архитектура је приступ који се односи на рачунарско манипулисање дискретним елементима архитектонских објекта који су репрезентовани у форми вишезначних, адаптибилних и скалабилних дигиталних података. Дискретна архитектура користи предности дигиталне економије и аутоматизације како би допринела демократизацији производње и повећању доступности, препознајући потенцијалне економске, социјалне и културне импликације. Истраживања и пројекти орјентисани на тему дискретне архитектуре и архитектонске онтологије указују на потенцијале које нуде комплексне, прилагодљиве архитектоничне структуре који настају као резултат дигиталног склапања елемената. У оквиру овог рада, тема композиција од дискретних елемената истражује кроз креативни процес. С тим у вези, рад испитује могућност употребе генеративних система заснованих на формализму граматике графова у стварању прилагодљивих просторних конфигурација у архитектонском контексту. Приступ је тестиран коришћењем методе истраживања кроз пројекат у коме се рачунски генеративни систем користи као уграђени систем за истраживања форме просторних структура. Као генеративна процедура у истраживању се користи граматика графа. У овој процедури полазећи од спецификације дискретних елемената / модула и њихових атрибута, затим дефиниције правила и ограничења њихове композиције, стохастички алгоритам случајним одабиром модула и правила на свакој итерацији адитивног процеса генерише различите просторне структуре. Просторне структуре од дискретних елемената генерисане на овај начин поседују особину емергенције, континуитета, али и нови ниво материјалности, детаља, структуре, функционалности и естетике који су својствени процесу пројектовања који је заснован на интеракцији дизајнера и рачунара. Структурне перформансе композиција оцењене су помоћу софтвера заснованог на Методи коначних елемената (МКЕ), такође конструкција је у одређеној мери проверена и кроз израду прототипа у малој размери. Предметно истраживање је омогућило проверу специфичне пројектантске методологије, као и испитивање потенцијала дигитално интелигентне архитектуре.
PB  - Beograd: Univerzitet umetnosti u Beogradu, Fakultet primenjenih umetnosti
T2  - Уметност и наука у примени: искуство и визија = Art and Science Applied: Experience and Vision, SmartArt
T1  - Discrete Continuities: Generative Design Explorations of Spatial Structures in Architecture
VL  - 2
SP  - 407
EP  - 424
DO  - 10.18485/smartart.2022.2.ch22
ER  - 

@inbook{
author = "Milošević, Jelena Ž. and Nenadović, Aleksandra S. and Žujović, Maša S. and Živković, Milijana D. and Zimović, Isidora A. and Gavrilović, Marko M.",
year = "2022",
abstract = "This paper contributes to the research in the field of generative computational design of discrete assemblies and their implementations in constructing spatial structures in architecture. Works and research on discrete architecture and architectural ontology suggest that the considerable promise for a complex, open-ended, adaptable architecture could be a digital form of assembly based on parts. In this study, the topic of compositions made of discrete elements is researched from the perspective of the creative process. Respectively, the paper explores the possibility of using generative systems based on graph grammar formalism in the creation of adaptable spatial configurations in an architectural context. We tested this approach through design research in which a computational generative system was used as an embedded system for formal explorations. Starting from the specification of discrete elements/modules and their inherent attributes, then the definition of the composition rules and constraints, we applied the graph grammar formation procedure which, by a random selection of the modules and rules on each iteration of the additive process, generated a variety of complex spatial structures. The emergent discrete continuities exhibit new and unanticipated detail, materiality, structure, functionality, and aesthetics inherent to the design process augmented by human-machine interaction. The structural performance of these structures was evaluated using software based on the Finite Element Method (FEM), while the constructability was tested through the construction of small-scale prototypes. This theme enabled us to study specific design methodology, as well as to investigate the potential of digitally intelligent architecture., Изазови са којима се архитектонско пројектовање суочава у дигиталној ери подразумевају повећање комплексности пројеката и захтевима за примену за ефикасних пројектантских методама и алата. Овај рад доприноси истраживањима у области генеративног рачунског пројектовања дискретних склопова и њиховој примени у изградњи просторних структура у архитектури. Дискретна архитектура је приступ који се односи на рачунарско манипулисање дискретним елементима архитектонских објекта који су репрезентовани у форми вишезначних, адаптибилних и скалабилних дигиталних података. Дискретна архитектура користи предности дигиталне економије и аутоматизације како би допринела демократизацији производње и повећању доступности, препознајући потенцијалне економске, социјалне и културне импликације. Истраживања и пројекти орјентисани на тему дискретне архитектуре и архитектонске онтологије указују на потенцијале које нуде комплексне, прилагодљиве архитектоничне структуре који настају као резултат дигиталног склапања елемената. У оквиру овог рада, тема композиција од дискретних елемената истражује кроз креативни процес. С тим у вези, рад испитује могућност употребе генеративних система заснованих на формализму граматике графова у стварању прилагодљивих просторних конфигурација у архитектонском контексту. Приступ је тестиран коришћењем методе истраживања кроз пројекат у коме се рачунски генеративни систем користи као уграђени систем за истраживања форме просторних структура. Као генеративна процедура у истраживању се користи граматика графа. У овој процедури полазећи од спецификације дискретних елемената / модула и њихових атрибута, затим дефиниције правила и ограничења њихове композиције, стохастички алгоритам случајним одабиром модула и правила на свакој итерацији адитивног процеса генерише различите просторне структуре. Просторне структуре од дискретних елемената генерисане на овај начин поседују особину емергенције, континуитета, али и нови ниво материјалности, детаља, структуре, функционалности и естетике који су својствени процесу пројектовања који је заснован на интеракцији дизајнера и рачунара. Структурне перформансе композиција оцењене су помоћу софтвера заснованог на Методи коначних елемената (МКЕ), такође конструкција је у одређеној мери проверена и кроз израду прототипа у малој размери. Предметно истраживање је омогућило проверу специфичне пројектантске методологије, као и испитивање потенцијала дигитално интелигентне архитектуре.",
publisher = "Beograd: Univerzitet umetnosti u Beogradu, Fakultet primenjenih umetnosti",
journal = "Уметност и наука у примени: искуство и визија = Art and Science Applied: Experience and Vision, SmartArt",
booktitle = "Discrete Continuities: Generative Design Explorations of Spatial Structures in Architecture",
volume = "2",
pages = "407-424",
doi = "10.18485/smartart.2022.2.ch22"
}

Milošević, J. Ž., Nenadović, A. S., Žujović, M. S., Živković, M. D., Zimović, I. A.,& Gavrilović, M. M.. (2022). Discrete Continuities: Generative Design Explorations of Spatial Structures in Architecture. in Уметност и наука у примени: искуство и визија = Art and Science Applied: Experience and Vision, SmartArt
Beograd: Univerzitet umetnosti u Beogradu, Fakultet primenjenih umetnosti., 2, 407-424.
https://doi.org/10.18485/smartart.2022.2.ch22

Milošević JŽ, Nenadović AS, Žujović MS, Živković MD, Zimović IA, Gavrilović MM. Discrete Continuities: Generative Design Explorations of Spatial Structures in Architecture. in Уметност и наука у примени: искуство и визија = Art and Science Applied: Experience and Vision, SmartArt. 2022;2:407-424.
doi:10.18485/smartart.2022.2.ch22 .

Milošević, Jelena Ž., Nenadović, Aleksandra S., Žujović, Maša S., Živković, Milijana D., Zimović, Isidora A., Gavrilović, Marko M., "Discrete Continuities: Generative Design Explorations of Spatial Structures in Architecture" in Уметност и наука у примени: искуство и визија = Art and Science Applied: Experience and Vision, SmartArt, 2 (2022):407-424,
https://doi.org/10.18485/smartart.2022.2.ch22 . .

TY  - JOUR
AU  - Rakonjac, Ivana
AU  - Zorić, Ana
AU  - Rakonjac, Ivan
AU  - Milošević, Jelena
AU  - Marić, Jelena
AU  - Furundžić, Danilo
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1339
AB  - The contemporary way of life influences the forms and time framework of outdoor activities in open public spaces, shifting their focus to nighttime usage. The aim of this study is to demonstrate the limits of existing outdoor lighting design standards and recommendations in terms of livability. As an exploratory case study, the Sava waterfront in New Belgrade, Serbia was chosen. The methodology consisted of theoretical research and specific analysis, which included: (1) mapping the spatial distribution of users during several periods of the day; (2) criteria and indicator network analysis of outdoor lighting quality, and (3) a survey with a questionnaire conducted among the users of the waterfront area. The results showed that lighting design can influence overall open public space usage during nighttime through its parameters. It can affect the spatial distribution of users and their sense of safety and comfort, as well as the duration, frequency, and manner of usage. This study could improve planning and design practices regarding outdoor lighting, enabling more active and inclusive usage of open public spaces, thus increasing the overall livability of spaces and their social sustainability.
PB  - MDPI
T2  - Sustainability
T1  - Increasing the Livability of Open Public Spaces during Nighttime: The Importance of Lighting in Waterfront Areas
VL  - 14
IS  - 10
SP  - 6058
DO  - 10.3390/su14106058
ER  - 

@article{
author = "Rakonjac, Ivana and Zorić, Ana and Rakonjac, Ivan and Milošević, Jelena and Marić, Jelena and Furundžić, Danilo",
year = "2022",
abstract = "The contemporary way of life influences the forms and time framework of outdoor activities in open public spaces, shifting their focus to nighttime usage. The aim of this study is to demonstrate the limits of existing outdoor lighting design standards and recommendations in terms of livability. As an exploratory case study, the Sava waterfront in New Belgrade, Serbia was chosen. The methodology consisted of theoretical research and specific analysis, which included: (1) mapping the spatial distribution of users during several periods of the day; (2) criteria and indicator network analysis of outdoor lighting quality, and (3) a survey with a questionnaire conducted among the users of the waterfront area. The results showed that lighting design can influence overall open public space usage during nighttime through its parameters. It can affect the spatial distribution of users and their sense of safety and comfort, as well as the duration, frequency, and manner of usage. This study could improve planning and design practices regarding outdoor lighting, enabling more active and inclusive usage of open public spaces, thus increasing the overall livability of spaces and their social sustainability.",
publisher = "MDPI",
journal = "Sustainability",
title = "Increasing the Livability of Open Public Spaces during Nighttime: The Importance of Lighting in Waterfront Areas",
volume = "14",
number = "10",
pages = "6058",
doi = "10.3390/su14106058"
}

Rakonjac, I., Zorić, A., Rakonjac, I., Milošević, J., Marić, J.,& Furundžić, D.. (2022). Increasing the Livability of Open Public Spaces during Nighttime: The Importance of Lighting in Waterfront Areas. in Sustainability
MDPI., 14(10), 6058.
https://doi.org/10.3390/su14106058

Rakonjac I, Zorić A, Rakonjac I, Milošević J, Marić J, Furundžić D. Increasing the Livability of Open Public Spaces during Nighttime: The Importance of Lighting in Waterfront Areas. in Sustainability. 2022;14(10):6058.
doi:10.3390/su14106058 .

Rakonjac, Ivana, Zorić, Ana, Rakonjac, Ivan, Milošević, Jelena, Marić, Jelena, Furundžić, Danilo, "Increasing the Livability of Open Public Spaces during Nighttime: The Importance of Lighting in Waterfront Areas" in Sustainability, 14, no. 10 (2022):6058,
https://doi.org/10.3390/su14106058 . .

TY  - JOUR
AU  - Nenadović, Aleksandra
AU  - Milošević, Jelena
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1219
AB  - Sustainable building involves reducing negative environmental impacts with a simultaneous increase in life quality. The aim is to optimize building performances while considering all
aspects of sustainability: environmental, economic, and social. The building structure determines the
building’s performances, and it should be designed and evaluated as a subsystem of the building,
in line with the objectives of the system–building. This paper investigates structural design based
on integrated design objectives within the criterion of social benefits for users throughout the use
phase of the building, focusing on protection and safety, aspects of comfort, spatial organization,
spatial adaptability, and maintenance. The problem was studied using integrative literature review
methodology and system theory. The main findings of the research are a review and critical analysis
of the representative literature and the derived conceptual framework for structural design based on
the criterion of social benefits for building users, which should support more comprehensive and
more efficient decision-making during systemic design and optimization of buildings. The presented
integrated literature review indicates the need for the application of a systemic approach to structural
design in order to create sustainable buildings.
PB  - MDPI
T2  - Sustainability
T1  - Creating Sustainable Buildings: Structural Design Based on the Criterion of Social Benefits for Building Users
VL  - 14
IS  - 4
SP  - 2133
DO  - 10.3390/su14042133
ER  - 

@article{
author = "Nenadović, Aleksandra and Milošević, Jelena",
year = "2022",
abstract = "Sustainable building involves reducing negative environmental impacts with a simultaneous increase in life quality. The aim is to optimize building performances while considering all
aspects of sustainability: environmental, economic, and social. The building structure determines the
building’s performances, and it should be designed and evaluated as a subsystem of the building,
in line with the objectives of the system–building. This paper investigates structural design based
on integrated design objectives within the criterion of social benefits for users throughout the use
phase of the building, focusing on protection and safety, aspects of comfort, spatial organization,
spatial adaptability, and maintenance. The problem was studied using integrative literature review
methodology and system theory. The main findings of the research are a review and critical analysis
of the representative literature and the derived conceptual framework for structural design based on
the criterion of social benefits for building users, which should support more comprehensive and
more efficient decision-making during systemic design and optimization of buildings. The presented
integrated literature review indicates the need for the application of a systemic approach to structural
design in order to create sustainable buildings.",
publisher = "MDPI",
journal = "Sustainability",
title = "Creating Sustainable Buildings: Structural Design Based on the Criterion of Social Benefits for Building Users",
volume = "14",
number = "4",
pages = "2133",
doi = "10.3390/su14042133"
}

Nenadović, A.,& Milošević, J.. (2022). Creating Sustainable Buildings: Structural Design Based on the Criterion of Social Benefits for Building Users. in Sustainability
MDPI., 14(4), 2133.
https://doi.org/10.3390/su14042133

Nenadović A, Milošević J. Creating Sustainable Buildings: Structural Design Based on the Criterion of Social Benefits for Building Users. in Sustainability. 2022;14(4):2133.
doi:10.3390/su14042133 .

Nenadović, Aleksandra, Milošević, Jelena, "Creating Sustainable Buildings: Structural Design Based on the Criterion of Social Benefits for Building Users" in Sustainability, 14, no. 4 (2022):2133,
https://doi.org/10.3390/su14042133 . .

TY  - CONF
AU  - Milošević, Jelena
AU  - Nestorović, Miodrag
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1757
AB  - The Monument on the Battle of Sutjeska (1965-71), Tjentište, BiH, is an exceptional contemporary artwork in the former Yugoslavia. The monument was designed by sculptor Milorad Živković, while the structural design was developed by the engineer Đorđe Zloković. It represents a monumental sculpture/structure consisting of two symmetrically placed reinforced concrete boulders, 19m height, and penetration. In its symbolic, conceptual, and formal sense, the sculpture is related to the battle of World War II and inspired by the spirit of high modernism and the aesthetic of the so-called freeform. This paper analyses the relation between sculptural and structural forms in this work of memorial architecture. The study results from a literature review, a review of the original design documents (including project elaborate, models, and photo materials); a site visit; and an interview with the sculptor. The paper contributes to the discipline of structural critique by highlighting the lessons learned from the specific design and construction processes, such as the importance of cross-disciplinary collaboration to solve the challenges that art posed; the value of integrating rational reasoning based on technological requirements with creativity to achieve design excellence; and the relevance of simple formulas for structural estimation and learning from experimental models.
PB  - International Association for Shells and Spatial Structures (IASS)
C3  - Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference Innovation·Sustainability·Legacy 19 – 22 September 2022, Beijing
T1  - A continuum between sculptural and structural form in the Sutjeska Memorial
UR  - https://hdl.handle.net/21.15107/rcub_raf_1757
ER  - 

@conference{
author = "Milošević, Jelena and Nestorović, Miodrag",
year = "2022",
abstract = "The Monument on the Battle of Sutjeska (1965-71), Tjentište, BiH, is an exceptional contemporary artwork in the former Yugoslavia. The monument was designed by sculptor Milorad Živković, while the structural design was developed by the engineer Đorđe Zloković. It represents a monumental sculpture/structure consisting of two symmetrically placed reinforced concrete boulders, 19m height, and penetration. In its symbolic, conceptual, and formal sense, the sculpture is related to the battle of World War II and inspired by the spirit of high modernism and the aesthetic of the so-called freeform. This paper analyses the relation between sculptural and structural forms in this work of memorial architecture. The study results from a literature review, a review of the original design documents (including project elaborate, models, and photo materials); a site visit; and an interview with the sculptor. The paper contributes to the discipline of structural critique by highlighting the lessons learned from the specific design and construction processes, such as the importance of cross-disciplinary collaboration to solve the challenges that art posed; the value of integrating rational reasoning based on technological requirements with creativity to achieve design excellence; and the relevance of simple formulas for structural estimation and learning from experimental models.",
publisher = "International Association for Shells and Spatial Structures (IASS)",
journal = "Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference Innovation·Sustainability·Legacy 19 – 22 September 2022, Beijing",
title = "A continuum between sculptural and structural form in the Sutjeska Memorial",
url = "https://hdl.handle.net/21.15107/rcub_raf_1757"
}

Milošević, J.,& Nestorović, M.. (2022). A continuum between sculptural and structural form in the Sutjeska Memorial. in Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference Innovation·Sustainability·Legacy 19 – 22 September 2022, Beijing
International Association for Shells and Spatial Structures (IASS)..
https://hdl.handle.net/21.15107/rcub_raf_1757

Milošević J, Nestorović M. A continuum between sculptural and structural form in the Sutjeska Memorial. in Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference Innovation·Sustainability·Legacy 19 – 22 September 2022, Beijing. 2022;.
https://hdl.handle.net/21.15107/rcub_raf_1757 .

Milošević, Jelena, Nestorović, Miodrag, "A continuum between sculptural and structural form in the Sutjeska Memorial" in Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference Innovation·Sustainability·Legacy 19 – 22 September 2022, Beijing (2022),
https://hdl.handle.net/21.15107/rcub_raf_1757 .

TY  - JOUR
AU  - Nestorović, Miodrag
AU  - Milošević, Jelena
PY  - 2022
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1752
AB  - This article presents George Zlokovic (1927-2017) a Serbian architect, civil and structural engineer, doctor of technical sciences, university professor, and academician, highlighting the importance of his work in relation to the context in which he created and indirectly through the impact he made on the generations of students, engineers, and architects. The goal of the article is to compile and summarize 90 years of an exceptionally creative life based on relevant sources – publications, archive material, and personal relationships of the authors - associates of academician Zlokovic. The article includes a brief CV, description, and interpretation of diverse aspects of Zlokovic's work - professional, scientific, and educational, illustrating the professional multifacetedness of this featured individual.
PB  - Taylor & Francis
T2  - Structural Engineering International
T1  - Eminent Structural Engineer: Academician George Zlokovic (1927–2017)
VL  - 32
IS  - 3
DO  - 10.1080/10168664.2021.2004972
ER  - 

@article{
author = "Nestorović, Miodrag and Milošević, Jelena",
year = "2022",
abstract = "This article presents George Zlokovic (1927-2017) a Serbian architect, civil and structural engineer, doctor of technical sciences, university professor, and academician, highlighting the importance of his work in relation to the context in which he created and indirectly through the impact he made on the generations of students, engineers, and architects. The goal of the article is to compile and summarize 90 years of an exceptionally creative life based on relevant sources – publications, archive material, and personal relationships of the authors - associates of academician Zlokovic. The article includes a brief CV, description, and interpretation of diverse aspects of Zlokovic's work - professional, scientific, and educational, illustrating the professional multifacetedness of this featured individual.",
publisher = "Taylor & Francis",
journal = "Structural Engineering International",
title = "Eminent Structural Engineer: Academician George Zlokovic (1927–2017)",
volume = "32",
number = "3",
doi = "10.1080/10168664.2021.2004972"
}

Nestorović, M.,& Milošević, J.. (2022). Eminent Structural Engineer: Academician George Zlokovic (1927–2017). in Structural Engineering International
Taylor & Francis., 32(3).
https://doi.org/10.1080/10168664.2021.2004972

Nestorović M, Milošević J. Eminent Structural Engineer: Academician George Zlokovic (1927–2017). in Structural Engineering International. 2022;32(3).
doi:10.1080/10168664.2021.2004972 .

Nestorović, Miodrag, Milošević, Jelena, "Eminent Structural Engineer: Academician George Zlokovic (1927–2017)" in Structural Engineering International, 32, no. 3 (2022),
https://doi.org/10.1080/10168664.2021.2004972 . .

TY  - CONF
AU  - Milošević, Jelena
PY  - 2021
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1745
AB  - This paper presents a case study on applying a blended learning environment in teaching spatial structures at the University of Belgrade – Faculty of Architecture. The focused studio design course introduces architectural students to the challenge of designing spatial structures. The studio curriculum that we developed interactively combines analytical and systematic procedures with explorative design exercises, literature studies and organized reflection, computer program demonstrations, physical model studies, generative design explorations, fabrication of small-scale prototypes. The curriculum uses the benefit of learning in arts to learning in engineering transfer and the advantage of conveying methods and tools from science to design. As a means of extending studio activities, during the academic year 2019/2020, we used the blended model that combined online features and face-to-face practice in a complementary mode. We applied the Microsoft Office Teams platform and Class Notebook application for the implementation of the suggested approach. These tools aided communication and collaboration in the online environment and supported our process-driven approach to teaching by enabling the specification of assignments that engage and focus students’ thinking and the creation of students’ portfolios, grading, and feedback. This approach assisted students to develop in-depth content knowledge, critical thinking, creativity, and skills by working in (inter)active and inclusive environment.
PB  - International Association for Shells and Spatial Structures
C3  - Proceedings of the IASS Annual Symposium 2020/21 and the 7th International Conference on Spatial Structures Inspiring the Next Generation,  23 – 27 August 2021, Guilford
T1  - Blended Design Studio in Teaching Architectural Students Spatial Structures
SP  - 3108
EP  - 3119
UR  - https://hdl.handle.net/21.15107/rcub_raf_1745
ER  - 

@conference{
author = "Milošević, Jelena",
year = "2021",
abstract = "This paper presents a case study on applying a blended learning environment in teaching spatial structures at the University of Belgrade – Faculty of Architecture. The focused studio design course introduces architectural students to the challenge of designing spatial structures. The studio curriculum that we developed interactively combines analytical and systematic procedures with explorative design exercises, literature studies and organized reflection, computer program demonstrations, physical model studies, generative design explorations, fabrication of small-scale prototypes. The curriculum uses the benefit of learning in arts to learning in engineering transfer and the advantage of conveying methods and tools from science to design. As a means of extending studio activities, during the academic year 2019/2020, we used the blended model that combined online features and face-to-face practice in a complementary mode. We applied the Microsoft Office Teams platform and Class Notebook application for the implementation of the suggested approach. These tools aided communication and collaboration in the online environment and supported our process-driven approach to teaching by enabling the specification of assignments that engage and focus students’ thinking and the creation of students’ portfolios, grading, and feedback. This approach assisted students to develop in-depth content knowledge, critical thinking, creativity, and skills by working in (inter)active and inclusive environment.",
publisher = "International Association for Shells and Spatial Structures",
journal = "Proceedings of the IASS Annual Symposium 2020/21 and the 7th International Conference on Spatial Structures Inspiring the Next Generation,  23 – 27 August 2021, Guilford",
title = "Blended Design Studio in Teaching Architectural Students Spatial Structures",
pages = "3108-3119",
url = "https://hdl.handle.net/21.15107/rcub_raf_1745"
}

Milošević, J.. (2021). Blended Design Studio in Teaching Architectural Students Spatial Structures. in Proceedings of the IASS Annual Symposium 2020/21 and the 7th International Conference on Spatial Structures Inspiring the Next Generation,  23 – 27 August 2021, Guilford
International Association for Shells and Spatial Structures., 3108-3119.
https://hdl.handle.net/21.15107/rcub_raf_1745

Milošević J. Blended Design Studio in Teaching Architectural Students Spatial Structures. in Proceedings of the IASS Annual Symposium 2020/21 and the 7th International Conference on Spatial Structures Inspiring the Next Generation,  23 – 27 August 2021, Guilford. 2021;:3108-3119.
https://hdl.handle.net/21.15107/rcub_raf_1745 .

Milošević, Jelena, "Blended Design Studio in Teaching Architectural Students Spatial Structures" in Proceedings of the IASS Annual Symposium 2020/21 and the 7th International Conference on Spatial Structures Inspiring the Next Generation,  23 – 27 August 2021, Guilford (2021):3108-3119,
https://hdl.handle.net/21.15107/rcub_raf_1745 .

TY  - JOUR
AU  - Milošević, Vuk
AU  - Kostić, Dragan
AU  - Milošević, Jelena
PY  - 2020
UR  - https://raf.arh.bg.ac.rs/handle/123456789/566
AB  - Point load actions may have a significant impact on
deflections of tensile membrane structures. Research
presented in this paper is aimed at exploring the effects
of point load actions on membrane forces of tensile
membrane structures. Therefore, three different
parameters of the structure were varied, and the
membrane forces resulting from point loads were
monitored. Variable parameters are the height of the
model, the intensity of prestressing forces, and the
orientation of the membrane material. The research was
done on models in specialized software. In order to
evaluate the significance of point load effects,
membrane forces were compared to those under snow
load. The results of the research show the layout of
membrane forces under point load and dependence of
maximal membrane forces on the varied parameters.
Specific sets of analyzed parameters lead to significant
values of maximal membrane forces under point load
action
AB  - Koncentrisane sile mogu da izazivaju znatne ugibe
zategnutih membranskih konstrukcija. Istraživanje
predstavljeno u ovom radu bavi se efektima dejstva
koncentrisane sile na sile zatezanja membranskih
konstrukcija. Kako bi se ovi efekti ispitali, varirana su tri
parametra konstrukcije, a praćene su sile zatezanja
izazvane dejstvom koncetrisane sile. Varirani parametri
jesu visina modela, intenzitet sila prednaprezanja i
orijentacija membranskog materijala. Istraživanje je
sprovedeno na modelima formiranim u specijalizovanom
softveru. Kako bi se ocenio značaj efekata dejstva
koncentrisane sile, rezultujuće sile zatezanja upoređene
su sa silama zatezanja pod dejstvom opterećenja od
snega. Rezultati istraživanja pokazuju raspored
intenziteta sila zatezanja u membrani pod dejstvom
koncentrisane sile i zavisnost maksimalnih sila zatezanja
od ispitivanih parametara. Pri određenim kombinacijama
ispitivanih parametara, koncentrisana sila izaziva vrlo
značajne sile zatezanja.
PB  - Belgrade : Society for Materials and Structures Testing of Serbia = Društvo za ispitivanje i istraživanje materijala i konstrukcija Srbije
T2  - Građevinski materijali i konstrukcije : časopis za istraživanja u oblasti materijala i konstrukcija = Building materials and structures : journal for research of materials and structures
T1  - Zavisnost sila zatezanja membranskih konstrukcija od različitih parametara pod dejstvom koncentrisane sile
T1  - Tensile Membrane Structure Forces Dependence on Different Parameters Under Point Load Action
VL  - 63
IS  - 1
SP  - 29
EP  - 43
DO  - 10.5937/GRMK2001029M
ER  - 

@article{
author = "Milošević, Vuk and Kostić, Dragan and Milošević, Jelena",
year = "2020",
abstract = "Point load actions may have a significant impact on
deflections of tensile membrane structures. Research
presented in this paper is aimed at exploring the effects
of point load actions on membrane forces of tensile
membrane structures. Therefore, three different
parameters of the structure were varied, and the
membrane forces resulting from point loads were
monitored. Variable parameters are the height of the
model, the intensity of prestressing forces, and the
orientation of the membrane material. The research was
done on models in specialized software. In order to
evaluate the significance of point load effects,
membrane forces were compared to those under snow
load. The results of the research show the layout of
membrane forces under point load and dependence of
maximal membrane forces on the varied parameters.
Specific sets of analyzed parameters lead to significant
values of maximal membrane forces under point load
action, Koncentrisane sile mogu da izazivaju znatne ugibe
zategnutih membranskih konstrukcija. Istraživanje
predstavljeno u ovom radu bavi se efektima dejstva
koncentrisane sile na sile zatezanja membranskih
konstrukcija. Kako bi se ovi efekti ispitali, varirana su tri
parametra konstrukcije, a praćene su sile zatezanja
izazvane dejstvom koncetrisane sile. Varirani parametri
jesu visina modela, intenzitet sila prednaprezanja i
orijentacija membranskog materijala. Istraživanje je
sprovedeno na modelima formiranim u specijalizovanom
softveru. Kako bi se ocenio značaj efekata dejstva
koncentrisane sile, rezultujuće sile zatezanja upoređene
su sa silama zatezanja pod dejstvom opterećenja od
snega. Rezultati istraživanja pokazuju raspored
intenziteta sila zatezanja u membrani pod dejstvom
koncentrisane sile i zavisnost maksimalnih sila zatezanja
od ispitivanih parametara. Pri određenim kombinacijama
ispitivanih parametara, koncentrisana sila izaziva vrlo
značajne sile zatezanja.",
publisher = "Belgrade : Society for Materials and Structures Testing of Serbia = Društvo za ispitivanje i istraživanje materijala i konstrukcija Srbije",
journal = "Građevinski materijali i konstrukcije : časopis za istraživanja u oblasti materijala i konstrukcija = Building materials and structures : journal for research of materials and structures",
title = "Zavisnost sila zatezanja membranskih konstrukcija od različitih parametara pod dejstvom koncentrisane sile, Tensile Membrane Structure Forces Dependence on Different Parameters Under Point Load Action",
volume = "63",
number = "1",
pages = "29-43",
doi = "10.5937/GRMK2001029M"
}

Milošević, V., Kostić, D.,& Milošević, J.. (2020). Zavisnost sila zatezanja membranskih konstrukcija od različitih parametara pod dejstvom koncentrisane sile. in Građevinski materijali i konstrukcije : časopis za istraživanja u oblasti materijala i konstrukcija = Building materials and structures : journal for research of materials and structures
Belgrade : Society for Materials and Structures Testing of Serbia = Društvo za ispitivanje i istraživanje materijala i konstrukcija Srbije., 63(1), 29-43.
https://doi.org/10.5937/GRMK2001029M

Milošević V, Kostić D, Milošević J. Zavisnost sila zatezanja membranskih konstrukcija od različitih parametara pod dejstvom koncentrisane sile. in Građevinski materijali i konstrukcije : časopis za istraživanja u oblasti materijala i konstrukcija = Building materials and structures : journal for research of materials and structures. 2020;63(1):29-43.
doi:10.5937/GRMK2001029M .

Milošević, Vuk, Kostić, Dragan, Milošević, Jelena, "Zavisnost sila zatezanja membranskih konstrukcija od različitih parametara pod dejstvom koncentrisane sile" in Građevinski materijali i konstrukcije : časopis za istraživanja u oblasti materijala i konstrukcija = Building materials and structures : journal for research of materials and structures, 63, no. 1 (2020):29-43,
https://doi.org/10.5937/GRMK2001029M . .

TY  - CONF
AU  - Milošević, Jelena
PY  - 2019
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1744
AB  - This paper presents a case study on the application of the project-based approach for learning on tensile membrane structures at an elective course at master studies of architecture. In order to improve the learning process and achieve course outcomes, over an extended period of time during the semester, students worked on a project, which task was to design a covering for a small pedestrian street. In small groups, students investigated applications of membrane installations, and how these structures could improve the quality of open urban spaces and solve environmental problems. The task engaged students in innovative and creative solving a real-world problem and dealing with functionality, feasibility, practicality, and ecology. The project was implemented through collaboration with scientific research project and company. This approach enabled students to understand the synthesis of structural analysis, material behavior, constructability, and economic reality that occurs in professional practice. Project-based method facilitated students to learn by working in (inter)active and inclusive environment, to investigate and respond to engaging and complex problems and challenges and thus develop a deeper understanding of the design, technical, and installation issues of tensile membranes. As a result, students developed deep content knowledge as well as critical thinking, creativity, and communication skills in the context of doing an authentic, meaningful project.
PB  - Barcelona : International Centre for Numerical Methods in Engineering (CIMNE)
C3  - Proceedings of the IASS Annual Symposium 2019 - Structural Membranes 2019, Forme and Force, October 7 - 10
T1  - A Project-based Learning on Tensile Membrane Structures in Architectural Education
SP  - 2717
EP  - 2724
UR  - https://hdl.handle.net/21.15107/rcub_raf_1744
ER  - 

@conference{
author = "Milošević, Jelena",
year = "2019",
abstract = "This paper presents a case study on the application of the project-based approach for learning on tensile membrane structures at an elective course at master studies of architecture. In order to improve the learning process and achieve course outcomes, over an extended period of time during the semester, students worked on a project, which task was to design a covering for a small pedestrian street. In small groups, students investigated applications of membrane installations, and how these structures could improve the quality of open urban spaces and solve environmental problems. The task engaged students in innovative and creative solving a real-world problem and dealing with functionality, feasibility, practicality, and ecology. The project was implemented through collaboration with scientific research project and company. This approach enabled students to understand the synthesis of structural analysis, material behavior, constructability, and economic reality that occurs in professional practice. Project-based method facilitated students to learn by working in (inter)active and inclusive environment, to investigate and respond to engaging and complex problems and challenges and thus develop a deeper understanding of the design, technical, and installation issues of tensile membranes. As a result, students developed deep content knowledge as well as critical thinking, creativity, and communication skills in the context of doing an authentic, meaningful project.",
publisher = "Barcelona : International Centre for Numerical Methods in Engineering (CIMNE)",
journal = "Proceedings of the IASS Annual Symposium 2019 - Structural Membranes 2019, Forme and Force, October 7 - 10",
title = "A Project-based Learning on Tensile Membrane Structures in Architectural Education",
pages = "2717-2724",
url = "https://hdl.handle.net/21.15107/rcub_raf_1744"
}

Milošević, J.. (2019). A Project-based Learning on Tensile Membrane Structures in Architectural Education. in Proceedings of the IASS Annual Symposium 2019 - Structural Membranes 2019, Forme and Force, October 7 - 10
Barcelona : International Centre for Numerical Methods in Engineering (CIMNE)., 2717-2724.
https://hdl.handle.net/21.15107/rcub_raf_1744

Milošević J. A Project-based Learning on Tensile Membrane Structures in Architectural Education. in Proceedings of the IASS Annual Symposium 2019 - Structural Membranes 2019, Forme and Force, October 7 - 10. 2019;:2717-2724.
https://hdl.handle.net/21.15107/rcub_raf_1744 .

Milošević, Jelena, "A Project-based Learning on Tensile Membrane Structures in Architectural Education" in Proceedings of the IASS Annual Symposium 2019 - Structural Membranes 2019, Forme and Force, October 7 - 10 (2019):2717-2724,
https://hdl.handle.net/21.15107/rcub_raf_1744 .

Milošević, J., Graovac, O., Spasenović, V., Rašeta, D.,& Simić, M.. (2018). Infinity Nature [40. Salon of Architecture]. in Polja budućnosti : [katalog izložbe = exibition catalogue] / 40. salon arhitekture, Muzej primenjene umetnosti, [Beograd], 29. mart -5. maj 2018. = 40. Salon of Architecture, [Belgrade, 29th March - 5th May 2018]
Beograd : Muzej primenjene umetnosti = Belgrade : Museum of Applied Art., 80-80.
https://hdl.handle.net/21.15107/rcub_raf_1579

Milošević J, Graovac O, Spasenović V, Rašeta D, Simić M. Infinity Nature [40. Salon of Architecture]. in Polja budućnosti : [katalog izložbe = exibition catalogue] / 40. salon arhitekture, Muzej primenjene umetnosti, [Beograd], 29. mart -5. maj 2018. = 40. Salon of Architecture, [Belgrade, 29th March - 5th May 2018]. 2018;:80-80.
https://hdl.handle.net/21.15107/rcub_raf_1579 .

Milošević, Jelena, Graovac, Ognjen, Spasenović, Vanja, Rašeta, Darija, Simić, Mihailo, "Infinity Nature [40. Salon of Architecture]" in Polja budućnosti : [katalog izložbe = exibition catalogue] / 40. salon arhitekture, Muzej primenjene umetnosti, [Beograd], 29. mart -5. maj 2018. = 40. Salon of Architecture, [Belgrade, 29th March - 5th May 2018] (2018):80-80,
https://hdl.handle.net/21.15107/rcub_raf_1579 .

TY  - JOUR
AU  - Nestorović, Miodrag
AU  - Nestorović, Predrag
AU  - Milošević, Jelena
PY  - 2017
UR  - https://raf.arh.bg.ac.rs/handle/123456789/266
AB  - This paper is related to the fact that use of computational tools for form generation, analysis and digital fabrication (CAD/CAM/CAE) in an efficient way enables accurate representation of ideas, simulation of diverse impact and production of rational design solutions. Application of geometrical and numerical computational methods and adoption of performance based priorities enables formal exploration in constrained conditions and improvement of architectural engineering design process. Implementation of advanced technologies in 3D digital design process facilitates production of unconventional complex designs, their verification by construction of physical models and experimental diagnostics, as phase preceding construction of real structure. Within this work concept that provides design of non-standard, context-specific, freeform structure using rapid prototyping technology and 3D optical measurement will be reviewed. The analyzed design solution of roof structure above atrium of National Museum in Belgrade has a function to demonstrate the effectiveness of this approach.
AB  - Rad je povezan sa činjenicom da je korišćenjem alata za generisanje forme, analizu i digitalnu proizvodnju (CAD/CAM/CAE) na efikasan način omogućena precizna prezentacija ideja, simulacija različitih uticaja i produkcija racionalnih projektnih rešenja. Primena geometrijskih i numeričkih kompjuterskih metoda i usvajanja prioriteta zasnovanih na performansama omogućava formalna istraživanja u ograničenim uslovima i unapređenje procesa projektovanja u oblasti arhitektonskog inženjerstva. Implementacija naprednih digitalnih tehnologija u 3D proces projektovanja omogućava produkciju nekonvencionalnih kompleksnih oblika, njihovu verifikaciju konstrukcijom fizičkih modela i eksperimentalnu dijagnostiku, kao faze koja prethode izgradnji realne strukture. U okvirima ovog rada razmatraće se koncepti koji omogućavaju projektovanje nestandardne, kontekstualno specifične strukture slobodne forme primenom tehnologije brze proizvodnje prototipova i 3D optičkog merenje. Analizirano projektno rešenje krova iznad atrijuma Narodnog Muzeja u Beogradu u funkciji je potvrđivanja efikasnosti ovakvog pristupa.
PB  - Univerzitet u Nišu, Niš
T2  - Facta universitatis - series: Architecture and Civil Engineering
T1  - Performance based approach in design of freeform space structures
T1  - Pristup zasnovan na performansama u projektovanju prostornih struktura slobodne forme
VL  - 15
IS  - 2
SP  - 153
EP  - 166
DO  - 10.2298/FUACE160404011N
ER  - 

@article{
author = "Nestorović, Miodrag and Nestorović, Predrag and Milošević, Jelena",
year = "2017",
abstract = "This paper is related to the fact that use of computational tools for form generation, analysis and digital fabrication (CAD/CAM/CAE) in an efficient way enables accurate representation of ideas, simulation of diverse impact and production of rational design solutions. Application of geometrical and numerical computational methods and adoption of performance based priorities enables formal exploration in constrained conditions and improvement of architectural engineering design process. Implementation of advanced technologies in 3D digital design process facilitates production of unconventional complex designs, their verification by construction of physical models and experimental diagnostics, as phase preceding construction of real structure. Within this work concept that provides design of non-standard, context-specific, freeform structure using rapid prototyping technology and 3D optical measurement will be reviewed. The analyzed design solution of roof structure above atrium of National Museum in Belgrade has a function to demonstrate the effectiveness of this approach., Rad je povezan sa činjenicom da je korišćenjem alata za generisanje forme, analizu i digitalnu proizvodnju (CAD/CAM/CAE) na efikasan način omogućena precizna prezentacija ideja, simulacija različitih uticaja i produkcija racionalnih projektnih rešenja. Primena geometrijskih i numeričkih kompjuterskih metoda i usvajanja prioriteta zasnovanih na performansama omogućava formalna istraživanja u ograničenim uslovima i unapređenje procesa projektovanja u oblasti arhitektonskog inženjerstva. Implementacija naprednih digitalnih tehnologija u 3D proces projektovanja omogućava produkciju nekonvencionalnih kompleksnih oblika, njihovu verifikaciju konstrukcijom fizičkih modela i eksperimentalnu dijagnostiku, kao faze koja prethode izgradnji realne strukture. U okvirima ovog rada razmatraće se koncepti koji omogućavaju projektovanje nestandardne, kontekstualno specifične strukture slobodne forme primenom tehnologije brze proizvodnje prototipova i 3D optičkog merenje. Analizirano projektno rešenje krova iznad atrijuma Narodnog Muzeja u Beogradu u funkciji je potvrđivanja efikasnosti ovakvog pristupa.",
publisher = "Univerzitet u Nišu, Niš",
journal = "Facta universitatis - series: Architecture and Civil Engineering",
title = "Performance based approach in design of freeform space structures, Pristup zasnovan na performansama u projektovanju prostornih struktura slobodne forme",
volume = "15",
number = "2",
pages = "153-166",
doi = "10.2298/FUACE160404011N"
}

Nestorović, M., Nestorović, P.,& Milošević, J.. (2017). Performance based approach in design of freeform space structures. in Facta universitatis - series: Architecture and Civil Engineering
Univerzitet u Nišu, Niš., 15(2), 153-166.
https://doi.org/10.2298/FUACE160404011N

Nestorović M, Nestorović P, Milošević J. Performance based approach in design of freeform space structures. in Facta universitatis - series: Architecture and Civil Engineering. 2017;15(2):153-166.
doi:10.2298/FUACE160404011N .

Nestorović, Miodrag, Nestorović, Predrag, Milošević, Jelena, "Performance based approach in design of freeform space structures" in Facta universitatis - series: Architecture and Civil Engineering, 15, no. 2 (2017):153-166,
https://doi.org/10.2298/FUACE160404011N . .

TY  - CONF
AU  - Milošević, Jelena
AU  - Nestorović, Miodrag
PY  - 2017
UR  - https://raf.arh.bg.ac.rs/handle/123456789/575
AB  - This paper explores the concept of reverse analogies in biomimetic design of architectural structures. Design
paradigms based on biological models are engaged in appropriation of the biological forms, processes and
terminology. They are grounded in multidisciplinary studies of modes of transposition and implementation of identified
principles and natural laws in the discourse of spatial design with the goal of realization of optimal solutions that have
certain desired attributes of the biological systems. On the other hand, reverse analogies are related to the application
of concepts initially developed in architecture for research in different fields. It should be made distinction between
nature as a source of explanation and source of inspiration. While in the context of natural sciences validity of the
analogy is essentially important, in the case when the natural phenomena are used as a starting position for design
research week form of analogy is tolerable. Even misinterpretations and heretical concepts could be simulative for
design. The main advantage of the reverse analogies is in application of the freedom and liberal nature of the
architecture that enables development of the concepts out of pure design reasons. Sometimes in the modelling of the
phenomena not explained by the nature this approach could be simulative and catalytic. The goal of this paper is to
exploit potentials of reverse analogies for deriving patterns or feedback data that can be used for conception and
development of strategies and tools, or as an inspiration for formulation of intern morphological processes in design
of architectural structures.
PB  - Sarajevo : Arhitektonski fakultet
C3  - Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017
T1  - Reverse biomimetic analogies in design of architectural  structures
SP  - 707
EP  - 716
UR  - https://hdl.handle.net/21.15107/rcub_raf_575
ER  - 

@conference{
author = "Milošević, Jelena and Nestorović, Miodrag",
year = "2017",
abstract = "This paper explores the concept of reverse analogies in biomimetic design of architectural structures. Design
paradigms based on biological models are engaged in appropriation of the biological forms, processes and
terminology. They are grounded in multidisciplinary studies of modes of transposition and implementation of identified
principles and natural laws in the discourse of spatial design with the goal of realization of optimal solutions that have
certain desired attributes of the biological systems. On the other hand, reverse analogies are related to the application
of concepts initially developed in architecture for research in different fields. It should be made distinction between
nature as a source of explanation and source of inspiration. While in the context of natural sciences validity of the
analogy is essentially important, in the case when the natural phenomena are used as a starting position for design
research week form of analogy is tolerable. Even misinterpretations and heretical concepts could be simulative for
design. The main advantage of the reverse analogies is in application of the freedom and liberal nature of the
architecture that enables development of the concepts out of pure design reasons. Sometimes in the modelling of the
phenomena not explained by the nature this approach could be simulative and catalytic. The goal of this paper is to
exploit potentials of reverse analogies for deriving patterns or feedback data that can be used for conception and
development of strategies and tools, or as an inspiration for formulation of intern morphological processes in design
of architectural structures.",
publisher = "Sarajevo : Arhitektonski fakultet",
journal = "Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017",
title = "Reverse biomimetic analogies in design of architectural  structures",
pages = "707-716",
url = "https://hdl.handle.net/21.15107/rcub_raf_575"
}

Milošević, J.,& Nestorović, M.. (2017). Reverse biomimetic analogies in design of architectural  structures. in Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017
Sarajevo : Arhitektonski fakultet., 707-716.
https://hdl.handle.net/21.15107/rcub_raf_575

Milošević J, Nestorović M. Reverse biomimetic analogies in design of architectural  structures. in Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017. 2017;:707-716.
https://hdl.handle.net/21.15107/rcub_raf_575 .

Milošević, Jelena, Nestorović, Miodrag, "Reverse biomimetic analogies in design of architectural  structures" in Keeping up with technologies in the context of urban and rural synergy [Elektronski izvor] : book of conference proceedings / [4th International academic conference] Places and technologies 2017, Sarajevo, June, 08th - 09th, 2017 (2017):707-716,
https://hdl.handle.net/21.15107/rcub_raf_575 .

TY  - JOUR
AU  - Milošević, Jelena
AU  - Nedeljković, Đorđe
PY  - 2017
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1147
AB  - The paper presents the application of computational tools in design and analysis of integrally tensioned (tenegrity) structures. The shaping process of this specific type of spatial structures is determined by consideration of form-structure interrelation. Therefore, the sustainable approach to their design implies the application of tools which could both represent geometry and simulate their physical behaviour. With respect to this, in the research we tested the application of computational tools Fasttens for design of tensegrity structures. Fasttens programme is based on the computational procedure for non-linear analysis of tensegrity systems originally developed by Miodrag Nestorović. In order to run the original programme written in Turbo Pascal, we performed emulation, using emulator software DOSBox. We tested the application of the tool in the design of concrete tensegrity structure. Presented design and numerical experiment confirmed the effectiveness of the proposed approach.
PB  - Belgrade : University of Belgrade, Faculty of Architecture
T2  - SAJ : Serbian architectural journal
T1  - Computational design and analysis of tensegrity structures
VL  - 9
IS  - 1
SP  - 1
EP  - 20
UR  - https://hdl.handle.net/21.15107/rcub_raf_1147
ER  - 

@article{
author = "Milošević, Jelena and Nedeljković, Đorđe",
year = "2017",
abstract = "The paper presents the application of computational tools in design and analysis of integrally tensioned (tenegrity) structures. The shaping process of this specific type of spatial structures is determined by consideration of form-structure interrelation. Therefore, the sustainable approach to their design implies the application of tools which could both represent geometry and simulate their physical behaviour. With respect to this, in the research we tested the application of computational tools Fasttens for design of tensegrity structures. Fasttens programme is based on the computational procedure for non-linear analysis of tensegrity systems originally developed by Miodrag Nestorović. In order to run the original programme written in Turbo Pascal, we performed emulation, using emulator software DOSBox. We tested the application of the tool in the design of concrete tensegrity structure. Presented design and numerical experiment confirmed the effectiveness of the proposed approach.",
publisher = "Belgrade : University of Belgrade, Faculty of Architecture",
journal = "SAJ : Serbian architectural journal",
title = "Computational design and analysis of tensegrity structures",
volume = "9",
number = "1",
pages = "1-20",
url = "https://hdl.handle.net/21.15107/rcub_raf_1147"
}

Milošević, J.,& Nedeljković, Đ.. (2017). Computational design and analysis of tensegrity structures. in SAJ : Serbian architectural journal
Belgrade : University of Belgrade, Faculty of Architecture., 9(1), 1-20.
https://hdl.handle.net/21.15107/rcub_raf_1147

Milošević J, Nedeljković Đ. Computational design and analysis of tensegrity structures. in SAJ : Serbian architectural journal. 2017;9(1):1-20.
https://hdl.handle.net/21.15107/rcub_raf_1147 .

Milošević, Jelena, Nedeljković, Đorđe, "Computational design and analysis of tensegrity structures" in SAJ : Serbian architectural journal, 9, no. 1 (2017):1-20,
https://hdl.handle.net/21.15107/rcub_raf_1147 .

TY  - JOUR
AU  - Nestorović, Miodrag
AU  - Milošević, Jelena
AU  - Nestorović, Predrag
AU  - Maneski, Miloš
PY  - 2016
UR  - https://raf.arh.bg.ac.rs/handle/123456789/210
AB  - The paper deals with the origami used as an abstract tool to describe and represent the form and the structure of physical objects. In that respect, the potentials of this interdisciplinary technique as a medium of exploration of structural forms was introduced in the semester project done within the course Structural Systems at the Belgrade University, Faculty of Architecture. The technique was used as an interface to gain cognitive experience on spatial transformation and computational design. Throughout the intensive project period divided into three successive stages, the objective was to test method which enabled students to analyze geometrical principles of folding in order to apply these principles in the development of new designs. The generative algorithm inspired by the technique of paper folding assisted form-finding. Resulting shapes were verified by a production of small scale prototype models. The applied method, as a guiding design principle, facilitated formal exploration and augmentation of the design process. At the end of the course, students got cognitive experience on structural forms, while this simple technique delivered richness in terms of design solutions.
PB  - Institut za arhitekturu i urbanizam Srbije, Beograd
T2  - Spatium
T1  - Instrumentalization of origami in construction of folded plate structures: Design, research and education
VL  - 1
IS  - 35
SP  - 22
EP  - 29
DO  - 10.2298/SPAT1635022N
ER  - 

@article{
author = "Nestorović, Miodrag and Milošević, Jelena and Nestorović, Predrag and Maneski, Miloš",
year = "2016",
abstract = "The paper deals with the origami used as an abstract tool to describe and represent the form and the structure of physical objects. In that respect, the potentials of this interdisciplinary technique as a medium of exploration of structural forms was introduced in the semester project done within the course Structural Systems at the Belgrade University, Faculty of Architecture. The technique was used as an interface to gain cognitive experience on spatial transformation and computational design. Throughout the intensive project period divided into three successive stages, the objective was to test method which enabled students to analyze geometrical principles of folding in order to apply these principles in the development of new designs. The generative algorithm inspired by the technique of paper folding assisted form-finding. Resulting shapes were verified by a production of small scale prototype models. The applied method, as a guiding design principle, facilitated formal exploration and augmentation of the design process. At the end of the course, students got cognitive experience on structural forms, while this simple technique delivered richness in terms of design solutions.",
publisher = "Institut za arhitekturu i urbanizam Srbije, Beograd",
journal = "Spatium",
title = "Instrumentalization of origami in construction of folded plate structures: Design, research and education",
volume = "1",
number = "35",
pages = "22-29",
doi = "10.2298/SPAT1635022N"
}

Nestorović, M., Milošević, J., Nestorović, P.,& Maneski, M.. (2016). Instrumentalization of origami in construction of folded plate structures: Design, research and education. in Spatium
Institut za arhitekturu i urbanizam Srbije, Beograd., 1(35), 22-29.
https://doi.org/10.2298/SPAT1635022N

Nestorović M, Milošević J, Nestorović P, Maneski M. Instrumentalization of origami in construction of folded plate structures: Design, research and education. in Spatium. 2016;1(35):22-29.
doi:10.2298/SPAT1635022N .

Nestorović, Miodrag, Milošević, Jelena, Nestorović, Predrag, Maneski, Miloš, "Instrumentalization of origami in construction of folded plate structures: Design, research and education" in Spatium, 1, no. 35 (2016):22-29,
https://doi.org/10.2298/SPAT1635022N . .

TY  - JOUR
AU  - Milošević, Jelena
AU  - Kovačević, Saša
AU  - Nestorović, Miodrag
PY  - 2016
UR  - https://raf.arh.bg.ac.rs/handle/123456789/226
AB  - The paper reviews potentials of the application of isogeometric analysis (IGA) in the pro­cesses of form-finding of shell structures. Shaping of those specific spatial structural typolo­gies is determined by consideration of the form-structure interrelation, therefore the sustainable approach to design implies application of form-finding techniques. In this paper, we applied the frequently used form-finding principle a inverted model strategy, more precisely concept of inverted displacements. Contrary to the similar studies which apply standard finite element (FE) discretization, we proposed an application of isogeometric modeling of the structure. Isogeome­try implies analysis based on the exact definition of the initial geometry, facilitating design and analysis by application on the single data type - model. Advantage of the conservation of geometric representation is especially evident in the case of shell structure designs, bearing in mind their continuously curved geometry. We applied NURBS based isogeometric analysis in which geometry and displacement field are described by NURBS surfaces. Modeling of the structural performances was conducted by isogeometric shell elements. Presented numerical experiment has a function to confirm the effectiveness of the proposed approach.
AB  - Radom se razmatraju potencijali primene izogeometrijske analize u procesima traženja formi ljuski. Oblikovanje ovih specifičnih prostornih strukturalnih tipologija određeno je razmatranjem interrelacije forma-struktura, zbog čega održivi pristup njihovom projektovanju podra­zumeva primenu tehnika traženja forme. U okviru ovog rada primenjena je strategija obrnutog modela, često korišćen princip traženja forme, tačnije koncept obrnutih pomeranja. Za razliku od sličnih istraživanja u kojima se koristi standardna diskretizacija konačnim elementima (FE), ovim radom se predlaže izogeometrijsko modelovanje strukture. Izogeometrija podrazumeva analizu zasnovanu na egzaktnoj definiciji početne geometrije, čime je omogućeno projektovanje i analiza upotrebom jedinstvenog tipa podataka - modela. Prednost konzervacije geometrijske reprezentacije posebno dolazi do izražaja u slučaju projektovanja ljuski imajući u vidu njihovu kontinualno zakrivljenu geometriju. Primenjena je NURBS izogeometrijska analiza, u kojoj se geometrija i polje pomeranja opisuju korišćenjem NURBS površi. Modelovanje strukturalnih performansi izvršeno je korišćenjem izogeometrijskog elementa ljuske. Prikazan numerički ek­speriment u funkciji je potvrđivanja efikasnosti predloženog pristupa.
PB  - Udruženje inženjera građevinarstva, geotehnike, arhitekture i urbanista "Izgradnja", Beograd
T2  - Izgradnja
T1  - Form-finding of shell structures based on isogeometric analysis
T1  - Traženje forme ljuski zasnovano na izogeometrijskoj analizi
VL  - 70
IS  - 9-12
SP  - 353
EP  - 360
UR  - https://hdl.handle.net/21.15107/rcub_raf_226
ER  - 

@article{
author = "Milošević, Jelena and Kovačević, Saša and Nestorović, Miodrag",
year = "2016",
abstract = "The paper reviews potentials of the application of isogeometric analysis (IGA) in the pro­cesses of form-finding of shell structures. Shaping of those specific spatial structural typolo­gies is determined by consideration of the form-structure interrelation, therefore the sustainable approach to design implies application of form-finding techniques. In this paper, we applied the frequently used form-finding principle a inverted model strategy, more precisely concept of inverted displacements. Contrary to the similar studies which apply standard finite element (FE) discretization, we proposed an application of isogeometric modeling of the structure. Isogeome­try implies analysis based on the exact definition of the initial geometry, facilitating design and analysis by application on the single data type - model. Advantage of the conservation of geometric representation is especially evident in the case of shell structure designs, bearing in mind their continuously curved geometry. We applied NURBS based isogeometric analysis in which geometry and displacement field are described by NURBS surfaces. Modeling of the structural performances was conducted by isogeometric shell elements. Presented numerical experiment has a function to confirm the effectiveness of the proposed approach., Radom se razmatraju potencijali primene izogeometrijske analize u procesima traženja formi ljuski. Oblikovanje ovih specifičnih prostornih strukturalnih tipologija određeno je razmatranjem interrelacije forma-struktura, zbog čega održivi pristup njihovom projektovanju podra­zumeva primenu tehnika traženja forme. U okviru ovog rada primenjena je strategija obrnutog modela, često korišćen princip traženja forme, tačnije koncept obrnutih pomeranja. Za razliku od sličnih istraživanja u kojima se koristi standardna diskretizacija konačnim elementima (FE), ovim radom se predlaže izogeometrijsko modelovanje strukture. Izogeometrija podrazumeva analizu zasnovanu na egzaktnoj definiciji početne geometrije, čime je omogućeno projektovanje i analiza upotrebom jedinstvenog tipa podataka - modela. Prednost konzervacije geometrijske reprezentacije posebno dolazi do izražaja u slučaju projektovanja ljuski imajući u vidu njihovu kontinualno zakrivljenu geometriju. Primenjena je NURBS izogeometrijska analiza, u kojoj se geometrija i polje pomeranja opisuju korišćenjem NURBS površi. Modelovanje strukturalnih performansi izvršeno je korišćenjem izogeometrijskog elementa ljuske. Prikazan numerički ek­speriment u funkciji je potvrđivanja efikasnosti predloženog pristupa.",
publisher = "Udruženje inženjera građevinarstva, geotehnike, arhitekture i urbanista "Izgradnja", Beograd",
journal = "Izgradnja",
title = "Form-finding of shell structures based on isogeometric analysis, Traženje forme ljuski zasnovano na izogeometrijskoj analizi",
volume = "70",
number = "9-12",
pages = "353-360",
url = "https://hdl.handle.net/21.15107/rcub_raf_226"
}

Milošević, J., Kovačević, S.,& Nestorović, M.. (2016). Form-finding of shell structures based on isogeometric analysis. in Izgradnja
Udruženje inženjera građevinarstva, geotehnike, arhitekture i urbanista "Izgradnja", Beograd., 70(9-12), 353-360.
https://hdl.handle.net/21.15107/rcub_raf_226

Milošević J, Kovačević S, Nestorović M. Form-finding of shell structures based on isogeometric analysis. in Izgradnja. 2016;70(9-12):353-360.
https://hdl.handle.net/21.15107/rcub_raf_226 .

Milošević, Jelena, Kovačević, Saša, Nestorović, Miodrag, "Form-finding of shell structures based on isogeometric analysis" in Izgradnja, 70, no. 9-12 (2016):353-360,
https://hdl.handle.net/21.15107/rcub_raf_226 .

TY  - THES
AU  - Milošević, Jelena Ž.
PY  - 2016
UR  - http://eteze.bg.ac.rs/application/showtheses?thesesId=3425
UR  - https://fedorabg.bg.ac.rs/fedora/get/o:11987/bdef:Content/download
UR  - http://vbs.rs/scripts/cobiss?command=DISPLAY&base=70036&RID=513063057
UR  - http://nardus.mpn.gov.rs/123456789/6125
UR  - https://raf.arh.bg.ac.rs/handle/123456789/368
AB  - The thesis proposes unconventional procedure for design of surface structural systems, that integrates geometrical methods for modeling of form and computational procedures for simulation of structural behavior. The proposed procedure is in the form of morphogenetic strategy in which potentials of structural analysis are used in the conception phase of the design. The procedure is interactive and flexible, which is necessary for specific design process of surface structures. The definition of the algorithm, that facilitates more simple and efficient design of surface structural systems, was realized by implementation of Isogeometric analysis, numerical procedure in which geometry and kinematics of the structure are represented by the same functions. Contrary to the classical Finite element analysis, which is carried out on the interpolation of geometry, isogeometric concept implies analysis based on the exact definition of initial geometry, described by NURBS technology. This enables design, analysis and modifications of the model by application of the single data type. Starting from the theoretical and conceptual framework, the original algorithm was developed, and implemented as code program in CAD system based on NURBS geometric representation. The code enables automated generation of forms optimal in respect of structural performances. Implementation of the procedure demonstrates effectiveness of the proposed approach and confirms that advancement of the creative tools facilitates innovation and optimization of the design process.
AB  - Тезом је предложен неконвенционални поступак за пројектовање површинских конструктивних система којим се интегришу геометријске методе за моделовање форме и рачунарске процедуре за симулацију понашања структура. Предложени поступак је у форми морфогенетске процедуре у којој се потенцијали структуралне анализе користе у фази конципирања решења, а који се одликује интерактивношћу и флексибилношћу неопходним за специфичан процес пројектовања површинских структура. Дефинисање алгоритма, који омогућава једноставније и ефикасније пројектовање површинских конструктивних система, реализовано је имлементацијом изогеометријске анализе, нумеричким поступком у ком се геометрија и кинематика описују истим функцијама. За разлику од уобичајено коришћене класичне анализе методом коначних елемената, у којој се врши интерполација геометрије, изогеометријски концепт подразумева анализу на основу егзактно дефинисане почетне геометрије, описане NURBS технологијом, чиме је омогућено пројектовање, анализа и подешавање модела употребом јединственог типа података. Полазећи од теоријског и концептуалног оквира развијен је оригинални алгоритамско-програмски код који је имплементиран у оквир CAD система заснованог на NURBS геометријској репрезентацији, а који омогућава аутоматско генерисање форми оптималних у погледу структуралних перформанси. Имплементација процедуре демонстрира ефикасност предложеног приступа и потврђује да унапређење креативних алата омогућава иновацију и оптимизацију процеса пројектовања.
PB  - Универзитет у Београду, Архитектонски факултет
T2  - Универзитет у Београду
T1  - Isogeometric analysis in morphogenesis of surface structural systems
T1  - Изогеометријска анализа у морфогенези површинских конструктивних система
UR  - https://hdl.handle.net/21.15107/rcub_nardus_6125
ER  - 

@phdthesis{
author = "Milošević, Jelena Ž.",
year = "2016",
abstract = "The thesis proposes unconventional procedure for design of surface structural systems, that integrates geometrical methods for modeling of form and computational procedures for simulation of structural behavior. The proposed procedure is in the form of morphogenetic strategy in which potentials of structural analysis are used in the conception phase of the design. The procedure is interactive and flexible, which is necessary for specific design process of surface structures. The definition of the algorithm, that facilitates more simple and efficient design of surface structural systems, was realized by implementation of Isogeometric analysis, numerical procedure in which geometry and kinematics of the structure are represented by the same functions. Contrary to the classical Finite element analysis, which is carried out on the interpolation of geometry, isogeometric concept implies analysis based on the exact definition of initial geometry, described by NURBS technology. This enables design, analysis and modifications of the model by application of the single data type. Starting from the theoretical and conceptual framework, the original algorithm was developed, and implemented as code program in CAD system based on NURBS geometric representation. The code enables automated generation of forms optimal in respect of structural performances. Implementation of the procedure demonstrates effectiveness of the proposed approach and confirms that advancement of the creative tools facilitates innovation and optimization of the design process., Тезом је предложен неконвенционални поступак за пројектовање површинских конструктивних система којим се интегришу геометријске методе за моделовање форме и рачунарске процедуре за симулацију понашања структура. Предложени поступак је у форми морфогенетске процедуре у којој се потенцијали структуралне анализе користе у фази конципирања решења, а који се одликује интерактивношћу и флексибилношћу неопходним за специфичан процес пројектовања површинских структура. Дефинисање алгоритма, који омогућава једноставније и ефикасније пројектовање површинских конструктивних система, реализовано је имлементацијом изогеометријске анализе, нумеричким поступком у ком се геометрија и кинематика описују истим функцијама. За разлику од уобичајено коришћене класичне анализе методом коначних елемената, у којој се врши интерполација геометрије, изогеометријски концепт подразумева анализу на основу егзактно дефинисане почетне геометрије, описане NURBS технологијом, чиме је омогућено пројектовање, анализа и подешавање модела употребом јединственог типа података. Полазећи од теоријског и концептуалног оквира развијен је оригинални алгоритамско-програмски код који је имплементиран у оквир CAD система заснованог на NURBS геометријској репрезентацији, а који омогућава аутоматско генерисање форми оптималних у погледу структуралних перформанси. Имплементација процедуре демонстрира ефикасност предложеног приступа и потврђује да унапређење креативних алата омогућава иновацију и оптимизацију процеса пројектовања.",
publisher = "Универзитет у Београду, Архитектонски факултет",
journal = "Универзитет у Београду",
title = "Isogeometric analysis in morphogenesis of surface structural systems, Изогеометријска анализа у морфогенези површинских конструктивних система",
url = "https://hdl.handle.net/21.15107/rcub_nardus_6125"
}

Milošević, J. Ž.. (2016). Isogeometric analysis in morphogenesis of surface structural systems. in Универзитет у Београду
Универзитет у Београду, Архитектонски факултет..
https://hdl.handle.net/21.15107/rcub_nardus_6125

Milošević JŽ. Isogeometric analysis in morphogenesis of surface structural systems. in Универзитет у Београду. 2016;.
https://hdl.handle.net/21.15107/rcub_nardus_6125 .

Milošević, Jelena Ž., "Isogeometric analysis in morphogenesis of surface structural systems" in Универзитет у Београду (2016),
https://hdl.handle.net/21.15107/rcub_nardus_6125 .