TY  - CONF
AU  - Miloševic, Jelena
AU  - Brajković, Jelena
AU  - Josifovski, Andrej
AU  - Žujović, Maša
AU  - Živković, Milijana
PY  - 2023
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1885
AB  - This paper explores the application of 3D printing with recycled clay for architectural building elements, emphasizing its potential to contribute to a circular economy. The AEC industry has traditionally been associated with high material waste and environmental impact. However, the advent of 3D printing has revolutionized architectural design and manufacturing processes. Using recycled clay as a printing material, can address two challenges: reducing waste and promoting sustainability. Recycled clay, obtained from construction and demolition waste or other sources, offers advantages such as abundance, low cost, and a low environmental footprint, making it suitable for circular economy practices. Moreover, using recycled clay in 3D printing enables architects to create complex, customizable, and structurally efficient building elements, reducing the need for labor-intensive, resource-consuming traditional manufacturing techniques. The principles of the circular economy involve diverting collecting, processing, and transforming clay waste into printable material. Resource extraction and energy-intensive manufacturing processes associated with conventional building materials could be reduced by reusing and recycling clay. The paper examines case studies and ongoing research efforts in the field of 3D printing with recycled clay, demonstrating the potential of this approach to contribute to a circular economy in the AEC industry. This approach reduces waste, preserves natural resources, reduces carbon footprint, improves energy efficiency, and creates sustainable and aesthetically pleasing architectural structures. In conclusion, integrating 3D printing technologies with recycled clay presents a promising way towards creating a sustainable closed-loop circular economy system in architecture. By reimagining the construction process, designers and builders can contribute to an environmentally friendly and resource-efficient future while pushing the boundaries of architectural innovation.
PB  - Belgrade : STRAND - Sustainable Urban Society Association
C3  - On Architecture – Challenges in Design : proceedings
T1  - Reimagining Materiality: Circularity Potential of 3D Printed Architectural Elements with Recycled Clay
SP  - 246
EP  - 254
DO  - 978-86-89111-34-7
ER  - 

@conference{
author = "Miloševic, Jelena and Brajković, Jelena and Josifovski, Andrej and Žujović, Maša and Živković, Milijana",
year = "2023",
abstract = "This paper explores the application of 3D printing with recycled clay for architectural building elements, emphasizing its potential to contribute to a circular economy. The AEC industry has traditionally been associated with high material waste and environmental impact. However, the advent of 3D printing has revolutionized architectural design and manufacturing processes. Using recycled clay as a printing material, can address two challenges: reducing waste and promoting sustainability. Recycled clay, obtained from construction and demolition waste or other sources, offers advantages such as abundance, low cost, and a low environmental footprint, making it suitable for circular economy practices. Moreover, using recycled clay in 3D printing enables architects to create complex, customizable, and structurally efficient building elements, reducing the need for labor-intensive, resource-consuming traditional manufacturing techniques. The principles of the circular economy involve diverting collecting, processing, and transforming clay waste into printable material. Resource extraction and energy-intensive manufacturing processes associated with conventional building materials could be reduced by reusing and recycling clay. The paper examines case studies and ongoing research efforts in the field of 3D printing with recycled clay, demonstrating the potential of this approach to contribute to a circular economy in the AEC industry. This approach reduces waste, preserves natural resources, reduces carbon footprint, improves energy efficiency, and creates sustainable and aesthetically pleasing architectural structures. In conclusion, integrating 3D printing technologies with recycled clay presents a promising way towards creating a sustainable closed-loop circular economy system in architecture. By reimagining the construction process, designers and builders can contribute to an environmentally friendly and resource-efficient future while pushing the boundaries of architectural innovation.",
publisher = "Belgrade : STRAND - Sustainable Urban Society Association",
journal = "On Architecture – Challenges in Design : proceedings",
title = "Reimagining Materiality: Circularity Potential of 3D Printed Architectural Elements with Recycled Clay",
pages = "246-254",
doi = "978-86-89111-34-7"
}

Miloševic, J., Brajković, J., Josifovski, A., Žujović, M.,& Živković, M.. (2023). Reimagining Materiality: Circularity Potential of 3D Printed Architectural Elements with Recycled Clay. in On Architecture – Challenges in Design : proceedings
Belgrade : STRAND - Sustainable Urban Society Association., 246-254.
https://doi.org/978-86-89111-34-7

Miloševic J, Brajković J, Josifovski A, Žujović M, Živković M. Reimagining Materiality: Circularity Potential of 3D Printed Architectural Elements with Recycled Clay. in On Architecture – Challenges in Design : proceedings. 2023;:246-254.
doi:978-86-89111-34-7 .

Miloševic, Jelena, Brajković, Jelena, Josifovski, Andrej, Žujović, Maša, Živković, Milijana, "Reimagining Materiality: Circularity Potential of 3D Printed Architectural Elements with Recycled Clay" in On Architecture – Challenges in Design : proceedings (2023):246-254,
https://doi.org/978-86-89111-34-7 . .

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  - 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  - THES
AU  - Josifovski, Andrej
PY  - 2021
UR  - http://eteze.bg.ac.rs/application/showtheses?thesesId=8388
UR  - https://fedorabg.bg.ac.rs/fedora/get/o:24561/bdef:Content/download
UR  - http://vbs.rs/scripts/cobiss?command=DISPLAY&base=70036&RID=42827785
UR  - https://nardus.mpn.gov.rs/handle/123456789/18733
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1215
AB  - Процена квалитета дрвених конструкција је у суштини испитивање њихове статичкепостојаности и стабилности. Задаци оваквих процена по својој природи захтевају in situиспитивања, а због техничких специфичности механичког тестирања, првенствено суусмерена на недеструктивне методолошке приступе. Високи стандарди који сепостављају за испитивање архитектонских објеката од културно-историјског значаја,што се пре свега односи на очување њиховог интегритета и аутентичности, усмерилису и ово истраживање ка успостављању једне поуздане, недеструктивне методе која ћебити коришћена у те сврхе. Успостављање такве методе je подразумевало њенокалибрисање, јер у досадашњој пракси није било директне еквилизације параметарамеханички и недеструктивно одређене чврстоће уграђеног дрвета. Ултразвучни истрес-звучни таласи који се иначе примењују за недеструктивне процене механичкихпотенцијала дрвета – на основу брзине пропагације њихових таласа, давали су самомогућност израчунавања динамичког модула еластичности. Добијање и статичкогмодула еластичности ради корелисања параметара различитих модалитета тестирања,подразумевало је и паралелно механичко испитивање датог дрвеног материјала.Баждарењем стрес-звучне методе испитивања дрвета – по аналогном принципуусмеравања силе притиска и звучних таласа, a у односу на правац тока дрвнихвлаканаца, постигнута је еквилизација параметара брзине пропагације звука ипараметара чврстоће дрвета. Овим је била успостављена метода за in situ проценучврстоће носећих елемената дрвених архитектонских конструкција, поређењем састандрадом прописаним допуштеним напрезањима (JUS U.C9.200/300) који је датспрам врсте, класе дрвета и њихових димензија. Узимајући у обзир да је баждарењестрес-звучне методе вршено на епруветама исецаним од здравог дрвета одређенехигроскопне влажности, in situ процена чврстоће носећих конструктивних елемата јемогла да се врши и на основу познатих брзина пропагације звука кроз здраво дрво.Резултати рада овог истраживања, на основу спектралне анализе пропагације звучнихталаса, показују да је њиховом применом могућа директна процена чврстоће носећих6дрвених греда, а тиме и стабилности конструкција, чиме је постигнут циљ овогистраживања.
AB  - Wooden structures’ quality assessment is, basically, testing their static strength and stability.This kind of assessment, by its nature, requires in situ testing, and due to specific technicalcharacteristics of mechanical testing, it is primarily based on using uninvasivemethodological approaches. High standards set to test architectural objects of cultural andhistorical significance, which, above all, refer to preserving their integrity and authenticity,directed this research towards establishing a reliable uninvasive method which will be usedfor that purpose. Establishing such a method required its calibrating since there had not beena direct equalisation of mechanically and uninvasively set parameters for the hardness ofinbuilt wood. Ultrasound and stress waves commonly used in uninvasive assessment ofmechanical potentials of wood based on the speed of their waves’ propagation only enabledcalculating the dynamic elasticity modulus. Getting the static elasticity modulus, in order tocorrelate the parameters of different testing modalities, required parallel mechanical testing ofthat particular wooden material. The scaling of stress sound method for testing the hardnessof wood, using the analogue principle of directing pressure force and sound waves inaccordance with wood fibers direction, resulted in the speed of sound propagation and thehardness of wood parameters’ equalisation. In this way a method for in situ assessments ofthe hardness of carrying elements in wooden architectural structures was established, bycomparing it with the standard based on the strain limits (JUS U.C9.200/300), in accordancewith the kind, class and dimensions of timber. Considering the fact that stress sound methodscaling was done on test tubes cut out of healthy wood with particular hygroscopic moisture,in situ assessment of carrying structural elements could be done based on known speedvalues of sound propagation in healthy wood. The results of our research, based on thespectral analysis of sound wave propagation, show that their application enables a directassessment of the carrying wooden beams’ hardness and, therefore, a direct assessment of thestructure stability itself, thus meeting the objective of this research.
PB  - Универзитет у Београду, Архитектонски факултет
T2  - Универзитет у Београду
T1  - Недеструктивна IN SITU испитивања квалитета дрвених конструкција архитектонских објеката
UR  - https://hdl.handle.net/21.15107/rcub_nardus_18733
ER  - 

@phdthesis{
author = "Josifovski, Andrej",
year = "2021",
abstract = "Процена квалитета дрвених конструкција је у суштини испитивање њихове статичкепостојаности и стабилности. Задаци оваквих процена по својој природи захтевају in situиспитивања, а због техничких специфичности механичког тестирања, првенствено суусмерена на недеструктивне методолошке приступе. Високи стандарди који сепостављају за испитивање архитектонских објеката од културно-историјског значаја,што се пре свега односи на очување њиховог интегритета и аутентичности, усмерилису и ово истраживање ка успостављању једне поуздане, недеструктивне методе која ћебити коришћена у те сврхе. Успостављање такве методе je подразумевало њенокалибрисање, јер у досадашњој пракси није било директне еквилизације параметарамеханички и недеструктивно одређене чврстоће уграђеног дрвета. Ултразвучни истрес-звучни таласи који се иначе примењују за недеструктивне процене механичкихпотенцијала дрвета – на основу брзине пропагације њихових таласа, давали су самомогућност израчунавања динамичког модула еластичности. Добијање и статичкогмодула еластичности ради корелисања параметара различитих модалитета тестирања,подразумевало је и паралелно механичко испитивање датог дрвеног материјала.Баждарењем стрес-звучне методе испитивања дрвета – по аналогном принципуусмеравања силе притиска и звучних таласа, a у односу на правац тока дрвнихвлаканаца, постигнута је еквилизација параметара брзине пропагације звука ипараметара чврстоће дрвета. Овим је била успостављена метода за in situ проценучврстоће носећих елемената дрвених архитектонских конструкција, поређењем састандрадом прописаним допуштеним напрезањима (JUS U.C9.200/300) који је датспрам врсте, класе дрвета и њихових димензија. Узимајући у обзир да је баждарењестрес-звучне методе вршено на епруветама исецаним од здравог дрвета одређенехигроскопне влажности, in situ процена чврстоће носећих конструктивних елемата јемогла да се врши и на основу познатих брзина пропагације звука кроз здраво дрво.Резултати рада овог истраживања, на основу спектралне анализе пропагације звучнихталаса, показују да је њиховом применом могућа директна процена чврстоће носећих6дрвених греда, а тиме и стабилности конструкција, чиме је постигнут циљ овогистраживања., Wooden structures’ quality assessment is, basically, testing their static strength and stability.This kind of assessment, by its nature, requires in situ testing, and due to specific technicalcharacteristics of mechanical testing, it is primarily based on using uninvasivemethodological approaches. High standards set to test architectural objects of cultural andhistorical significance, which, above all, refer to preserving their integrity and authenticity,directed this research towards establishing a reliable uninvasive method which will be usedfor that purpose. Establishing such a method required its calibrating since there had not beena direct equalisation of mechanically and uninvasively set parameters for the hardness ofinbuilt wood. Ultrasound and stress waves commonly used in uninvasive assessment ofmechanical potentials of wood based on the speed of their waves’ propagation only enabledcalculating the dynamic elasticity modulus. Getting the static elasticity modulus, in order tocorrelate the parameters of different testing modalities, required parallel mechanical testing ofthat particular wooden material. The scaling of stress sound method for testing the hardnessof wood, using the analogue principle of directing pressure force and sound waves inaccordance with wood fibers direction, resulted in the speed of sound propagation and thehardness of wood parameters’ equalisation. In this way a method for in situ assessments ofthe hardness of carrying elements in wooden architectural structures was established, bycomparing it with the standard based on the strain limits (JUS U.C9.200/300), in accordancewith the kind, class and dimensions of timber. Considering the fact that stress sound methodscaling was done on test tubes cut out of healthy wood with particular hygroscopic moisture,in situ assessment of carrying structural elements could be done based on known speedvalues of sound propagation in healthy wood. The results of our research, based on thespectral analysis of sound wave propagation, show that their application enables a directassessment of the carrying wooden beams’ hardness and, therefore, a direct assessment of thestructure stability itself, thus meeting the objective of this research.",
publisher = "Универзитет у Београду, Архитектонски факултет",
journal = "Универзитет у Београду",
title = "Недеструктивна IN SITU испитивања квалитета дрвених конструкција архитектонских објеката",
url = "https://hdl.handle.net/21.15107/rcub_nardus_18733"
}

Josifovski, A.. (2021). Недеструктивна IN SITU испитивања квалитета дрвених конструкција архитектонских објеката. in Универзитет у Београду
Универзитет у Београду, Архитектонски факултет..
https://hdl.handle.net/21.15107/rcub_nardus_18733

Josifovski A. Недеструктивна IN SITU испитивања квалитета дрвених конструкција архитектонских објеката. in Универзитет у Београду. 2021;.
https://hdl.handle.net/21.15107/rcub_nardus_18733 .

Josifovski, Andrej, "Недеструктивна IN SITU испитивања квалитета дрвених конструкција архитектонских објеката" in Универзитет у Београду (2021),
https://hdl.handle.net/21.15107/rcub_nardus_18733 .

TY  - JOUR
AU  - Milovanović, Aleksandra
AU  - Kostić, Miloš
AU  - Zorić, Ana
AU  - Đorđević, Aleksandra
AU  - Pešić, Mladen
AU  - Bugarski, Jovana
AU  - Todorović, Dejan
AU  - Sokolović, Neda
AU  - Josifovski, Andrej
PY  - 2020
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1055
AB  - The paper addresses the shift in architectural education regarding the need to develop new
approaches in teaching methodology, improve curricula, and make advancements in new learning
arenas and digital environments. The research is based on the assumption that online workshops
could offer a unique learning experience for students in higher education. Accordingly, workshops
are considered an essential element in teaching emergency design. As a result, this can produce
broader and more innovative solutions to COVID-19 challenges regarding social distancing, limited
movements, regulated use of public space, and suspended daily activities. The theoretical notions
of emergency design and education for sustainable design enabled the identification of research
perspectives and spatial levels to be taken as a starting point of the workshop “COVID-19 Challenges:
Architecture of Pandemic” that was conducted by the University of Belgrade—Faculty of Architecture
in April 2020. The critical review of the workshop’s procedural and substantial aspects led to
identifying four main COVID-19 design challenges perceived in performance, innovation, alteration,
and inclusion. Additionally, the paper’s findings concern the identification of learning potentials
and limitations arising from a current topic affecting global society, for which neither solutions nor
adequate answers in the field of architecture and urbanism have been found.
PB  - MDPI AG
T2  - Sustainability
T1  - Transferring COVID-19 Challenges into Learning Potentials: Online Workshops in Architectural Education
VL  - 12
IS  - 17
DO  - 10.3390/su12177024
ER  - 

@article{
author = "Milovanović, Aleksandra and Kostić, Miloš and Zorić, Ana and Đorđević, Aleksandra and Pešić, Mladen and Bugarski, Jovana and Todorović, Dejan and Sokolović, Neda and Josifovski, Andrej",
year = "2020",
abstract = "The paper addresses the shift in architectural education regarding the need to develop new
approaches in teaching methodology, improve curricula, and make advancements in new learning
arenas and digital environments. The research is based on the assumption that online workshops
could offer a unique learning experience for students in higher education. Accordingly, workshops
are considered an essential element in teaching emergency design. As a result, this can produce
broader and more innovative solutions to COVID-19 challenges regarding social distancing, limited
movements, regulated use of public space, and suspended daily activities. The theoretical notions
of emergency design and education for sustainable design enabled the identification of research
perspectives and spatial levels to be taken as a starting point of the workshop “COVID-19 Challenges:
Architecture of Pandemic” that was conducted by the University of Belgrade—Faculty of Architecture
in April 2020. The critical review of the workshop’s procedural and substantial aspects led to
identifying four main COVID-19 design challenges perceived in performance, innovation, alteration,
and inclusion. Additionally, the paper’s findings concern the identification of learning potentials
and limitations arising from a current topic affecting global society, for which neither solutions nor
adequate answers in the field of architecture and urbanism have been found.",
publisher = "MDPI AG",
journal = "Sustainability",
title = "Transferring COVID-19 Challenges into Learning Potentials: Online Workshops in Architectural Education",
volume = "12",
number = "17",
doi = "10.3390/su12177024"
}

Milovanović, A., Kostić, M., Zorić, A., Đorđević, A., Pešić, M., Bugarski, J., Todorović, D., Sokolović, N.,& Josifovski, A.. (2020). Transferring COVID-19 Challenges into Learning Potentials: Online Workshops in Architectural Education. in Sustainability
MDPI AG., 12(17).
https://doi.org/10.3390/su12177024

Milovanović A, Kostić M, Zorić A, Đorđević A, Pešić M, Bugarski J, Todorović D, Sokolović N, Josifovski A. Transferring COVID-19 Challenges into Learning Potentials: Online Workshops in Architectural Education. in Sustainability. 2020;12(17).
doi:10.3390/su12177024 .

Milovanović, Aleksandra, Kostić, Miloš, Zorić, Ana, Đorđević, Aleksandra, Pešić, Mladen, Bugarski, Jovana, Todorović, Dejan, Sokolović, Neda, Josifovski, Andrej, "Transferring COVID-19 Challenges into Learning Potentials: Online Workshops in Architectural Education" in Sustainability, 12, no. 17 (2020),
https://doi.org/10.3390/su12177024 . .

TY  - JOUR
AU  - Milovanović, Aleksandra
AU  - Pešić, Mladen
AU  - Kostić, Miloš
AU  - Đorđević, Aleksandra
AU  - Bugarski, Jovana
AU  - Zorić, Ana
AU  - Todorović, Dejan
AU  - Josifovski, Andrej
AU  - Sokolović, Neda
PY  - 2020
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1644
AB  - We are experiencing a world that is undergoing extreme and unpredictable changes. The present-day global pandemic repeatedly shows that humankind is vulnerable to health crises and disasters not only during the emergency but also long after the principal danger has declined. With over seven million confirmed cases at the moment, COVID–19 pandemic imposed measures of social distancing, restricted movements, regulated use of public space, and suspended daily activities. These measures saved human lives but simultaneously confronted us with new spatial, social and psychological challenges. Resulting in ad hoc solutions directed towards providing immediate results and improving readiness for the current scenario, these solutions accumulated multiple adverse political, economic, social, and psychological effects. These challenges revealed low response capacity for spatial diagnostics and low level of emergency preparedness and thus indicated the need to reconsider the existing approaches of emergency design. De-escalation of COVID-19 and the end of imposed measures revealed the need for systematic planning and building the resilience of complex systems to successfully mitigate and prevent an epidemic or natural disaster and, simultaneously, ensure the quality of everyday life.
AB  - Stiamo vivendo una realtà che sta subendo cambiamenti estremi e imprevedibili. L’attuale pandemia globale mostra prepotentemente che l’umanità è vulnerabile alle crisi sanitarie e ai disastri non solo durante l’emergenza, ma anche molto tempo dopo che il pericolo principale è diminuito. Con oltre sette milioni di casi confermati al momento, la pandemia COVID-19 ha imposto misure di distanziamento sociale, spostamenti limitati, uso regolamentato dello spazio pubblico e sospensione delle normali attività quotidiane. Queste misure hanno salvato vite umane, ma allo stesso tempo ci hanno messo di fronte a nuove sfide spaziali, sociali e psicologiche. Trattandosi di soluzioni ad hoc dirette a fornire risultati immediati e a migliorare la prontezza di intervento sullo scenario attuale, queste soluzioni hanno accumulato d’altra parte molteplici effetti negativi politici, economici, sociali e psicologici. Queste sfide hanno rivelato una scarsa capacità di risposta in termini di organizzazione spaziale e un basso livello di preparazione alle calamità, indicando così la necessità di riconsiderare gli approcci esistenti nella progettazione delle emergenze. Il rallentamento del COVID-19 e la fine delle misure restrittive imposte hanno rivelato il bisogno di una pianificazione sistematica e di una resilienza necessaria ai sistemi complessi per mitigare e prevenire con successo un’epidemia o un disastro naturale e, allo stesso tempo, garantire la qualità della vita quotidiana.
PB  - Roma: DiAP Dipartimento di Architettura e Progetto - Sapienza Università di Roma
T2  - A&A è una rivista di architettura [Smart spaces ai tempi del coronavirus =Smart spaces at the time of coronavirus]
T1  - Architettura dell’emergenza riveduta: Sfide nella ricerca, nella pratica e nell’educazione
T1  - Emergency architecture revised: Challenges in research, practice and education
VL  - 47
SP  - 72
EP  - 97
UR  - https://hdl.handle.net/21.15107/rcub_raf_1644
ER  - 

@article{
author = "Milovanović, Aleksandra and Pešić, Mladen and Kostić, Miloš and Đorđević, Aleksandra and Bugarski, Jovana and Zorić, Ana and Todorović, Dejan and Josifovski, Andrej and Sokolović, Neda",
year = "2020",
abstract = "We are experiencing a world that is undergoing extreme and unpredictable changes. The present-day global pandemic repeatedly shows that humankind is vulnerable to health crises and disasters not only during the emergency but also long after the principal danger has declined. With over seven million confirmed cases at the moment, COVID–19 pandemic imposed measures of social distancing, restricted movements, regulated use of public space, and suspended daily activities. These measures saved human lives but simultaneously confronted us with new spatial, social and psychological challenges. Resulting in ad hoc solutions directed towards providing immediate results and improving readiness for the current scenario, these solutions accumulated multiple adverse political, economic, social, and psychological effects. These challenges revealed low response capacity for spatial diagnostics and low level of emergency preparedness and thus indicated the need to reconsider the existing approaches of emergency design. De-escalation of COVID-19 and the end of imposed measures revealed the need for systematic planning and building the resilience of complex systems to successfully mitigate and prevent an epidemic or natural disaster and, simultaneously, ensure the quality of everyday life., Stiamo vivendo una realtà che sta subendo cambiamenti estremi e imprevedibili. L’attuale pandemia globale mostra prepotentemente che l’umanità è vulnerabile alle crisi sanitarie e ai disastri non solo durante l’emergenza, ma anche molto tempo dopo che il pericolo principale è diminuito. Con oltre sette milioni di casi confermati al momento, la pandemia COVID-19 ha imposto misure di distanziamento sociale, spostamenti limitati, uso regolamentato dello spazio pubblico e sospensione delle normali attività quotidiane. Queste misure hanno salvato vite umane, ma allo stesso tempo ci hanno messo di fronte a nuove sfide spaziali, sociali e psicologiche. Trattandosi di soluzioni ad hoc dirette a fornire risultati immediati e a migliorare la prontezza di intervento sullo scenario attuale, queste soluzioni hanno accumulato d’altra parte molteplici effetti negativi politici, economici, sociali e psicologici. Queste sfide hanno rivelato una scarsa capacità di risposta in termini di organizzazione spaziale e un basso livello di preparazione alle calamità, indicando così la necessità di riconsiderare gli approcci esistenti nella progettazione delle emergenze. Il rallentamento del COVID-19 e la fine delle misure restrittive imposte hanno rivelato il bisogno di una pianificazione sistematica e di una resilienza necessaria ai sistemi complessi per mitigare e prevenire con successo un’epidemia o un disastro naturale e, allo stesso tempo, garantire la qualità della vita quotidiana.",
publisher = "Roma: DiAP Dipartimento di Architettura e Progetto - Sapienza Università di Roma",
journal = "A&A è una rivista di architettura [Smart spaces ai tempi del coronavirus =Smart spaces at the time of coronavirus]",
title = "Architettura dell’emergenza riveduta: Sfide nella ricerca, nella pratica e nell’educazione, Emergency architecture revised: Challenges in research, practice and education",
volume = "47",
pages = "72-97",
url = "https://hdl.handle.net/21.15107/rcub_raf_1644"
}

Milovanović, A., Pešić, M., Kostić, M., Đorđević, A., Bugarski, J., Zorić, A., Todorović, D., Josifovski, A.,& Sokolović, N.. (2020). Architettura dell’emergenza riveduta: Sfide nella ricerca, nella pratica e nell’educazione. in A&A è una rivista di architettura [Smart spaces ai tempi del coronavirus =Smart spaces at the time of coronavirus]
Roma: DiAP Dipartimento di Architettura e Progetto - Sapienza Università di Roma., 47, 72-97.
https://hdl.handle.net/21.15107/rcub_raf_1644

Milovanović A, Pešić M, Kostić M, Đorđević A, Bugarski J, Zorić A, Todorović D, Josifovski A, Sokolović N. Architettura dell’emergenza riveduta: Sfide nella ricerca, nella pratica e nell’educazione. in A&A è una rivista di architettura [Smart spaces ai tempi del coronavirus =Smart spaces at the time of coronavirus]. 2020;47:72-97.
https://hdl.handle.net/21.15107/rcub_raf_1644 .

Milovanović, Aleksandra, Pešić, Mladen, Kostić, Miloš, Đorđević, Aleksandra, Bugarski, Jovana, Zorić, Ana, Todorović, Dejan, Josifovski, Andrej, Sokolović, Neda, "Architettura dell’emergenza riveduta: Sfide nella ricerca, nella pratica e nell’educazione" in A&A è una rivista di architettura [Smart spaces ai tempi del coronavirus =Smart spaces at the time of coronavirus], 47 (2020):72-97,
https://hdl.handle.net/21.15107/rcub_raf_1644 .

Đorđević, A., Bugarski, J., Pešić, M., Zorić, A., Kostić, M., Todorović, D., Josifovski, A., Milovanović, A.,& Sokolović, N.. (2020). Covid-19 Challenges: Architecture of Pandemics, Online Student Workshop [Special Mention at ON Architecture 2020 Exhibition]. in Learning architecture : exhibition book / [Eight International Multimedia Event] On Architecture, Belgrade
Belgrade: STRAND – Sustainable Urban Society Association., 28-28.
https://hdl.handle.net/21.15107/rcub_raf_1629

Đorđević A, Bugarski J, Pešić M, Zorić A, Kostić M, Todorović D, Josifovski A, Milovanović A, Sokolović N. Covid-19 Challenges: Architecture of Pandemics, Online Student Workshop [Special Mention at ON Architecture 2020 Exhibition]. in Learning architecture : exhibition book / [Eight International Multimedia Event] On Architecture, Belgrade. 2020;:28-28.
https://hdl.handle.net/21.15107/rcub_raf_1629 .

Đorđević, Aleksandra, Bugarski, Jovana, Pešić, Mladen, Zorić, Ana, Kostić, Miloš, Todorović, Dejan, Josifovski, Andrej, Milovanović, Aleksandra, Sokolović, Neda, "Covid-19 Challenges: Architecture of Pandemics, Online Student Workshop [Special Mention at ON Architecture 2020 Exhibition]" in Learning architecture : exhibition book / [Eight International Multimedia Event] On Architecture, Belgrade (2020):28-28,
https://hdl.handle.net/21.15107/rcub_raf_1629 .

Đorđević, A., Bugarski, J., Pešić, M., Zorić, A., Kostić, M., Todorović, D., Josifovski, A., Milovanović, A.,& Sokolović, N.. (2020). COVID 19 Challenges: Architecture of Pandemics, an Online Student Workshop [22nd Salon of Architecture Novi Sad]. in 22. salon arhitekture Novi Sad : [Novi Sad, 15. 10. - 22. 10. 2020] = The 22nd Salon of architecture Novi Sad : [Novi Sad, October 15th - October 22nd 2020]
Novi Sad: Association of Novi Sad Architects., 136-136.
https://hdl.handle.net/21.15107/rcub_raf_1626

Đorđević A, Bugarski J, Pešić M, Zorić A, Kostić M, Todorović D, Josifovski A, Milovanović A, Sokolović N. COVID 19 Challenges: Architecture of Pandemics, an Online Student Workshop [22nd Salon of Architecture Novi Sad]. in 22. salon arhitekture Novi Sad : [Novi Sad, 15. 10. - 22. 10. 2020] = The 22nd Salon of architecture Novi Sad : [Novi Sad, October 15th - October 22nd 2020]. 2020;:136-136.
https://hdl.handle.net/21.15107/rcub_raf_1626 .

Đorđević, Aleksandra, Bugarski, Jovana, Pešić, Mladen, Zorić, Ana, Kostić, Miloš, Todorović, Dejan, Josifovski, Andrej, Milovanović, Aleksandra, Sokolović, Neda, "COVID 19 Challenges: Architecture of Pandemics, an Online Student Workshop [22nd Salon of Architecture Novi Sad]" in 22. salon arhitekture Novi Sad : [Novi Sad, 15. 10. - 22. 10. 2020] = The 22nd Salon of architecture Novi Sad : [Novi Sad, October 15th - October 22nd 2020] (2020):136-136,
https://hdl.handle.net/21.15107/rcub_raf_1626 .

TY  - CONF
AU  - Sokolović, Neda
AU  - Kontić, Ana
AU  - Josifovski, Andrej
PY  - 2020
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1496
AB  - The development of new materials and technologies is one of the greatest initiator of new architectural thought. Development within the long-standing continuous improvement of wood as material was induced by technological development and new market demands. Good mechanical and physical properties of wood and its easy accessibility, initiated further development and improvement of products based on this material. The aims of this improvement are more rational wood application and improvement of its physical and mechanical properties in regard to monolithic wood. In particular significant are wood-based products made from veneer layers, plywood and laminated veneer lumber (LVL). These materials stand out from other wood-based panel materials due to their mechanical and aesthetic performance. Previous application of veneer-based panels as a structural element in architecture has been implied as secondary or tertiary structural elements which transfer the load to supporting structural members, or to stiffen wooden structures. Recognition a good mechanical property of the material and its advantages as a small self-weight encouraged examining the possibilities of using wood-based panel products as the primary structural support element in exoskeleton structures, i.e. using building envelope as object structure. Application plywood and LVL is research study, so in this paper authors will analyze the possibilities of using these products as an exoskeleton supporting element, through case studies of realized experimental structures. Through research realised structures will be analysed, with a focus on shell structures. They will be evaluated through recognition of its advantages and disadvantages, especially those are directly conditioned by the structural characteristics of the material. Analyses of structures will be done according following criteria: structure design, spatial stability, span constraints, possibilities of loads the structure can support and connections between elements. In order to encourage use of veneer-based panels as load-bearing element in the exoskeleton structure, the paper will set guidelines for further research in this area and will recommend possibilities to improve mechanical characteristics of material. Rationalization of the use of wood-based panels in folded structures will highlight in paper. Forming exoskeleton structure from this material contributes rational use of the structure and raw wood materials saving.
PB  - Belgrade : University of Belgrade - Faculty of Architecture
C3  - Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies
T1  - Application of veneer based panels in Exoskeleton Architecture
DO  - 10.18485/arh_pt.2020.7.ch21
ER  - 

@conference{
author = "Sokolović, Neda and Kontić, Ana and Josifovski, Andrej",
year = "2020",
abstract = "The development of new materials and technologies is one of the greatest initiator of new architectural thought. Development within the long-standing continuous improvement of wood as material was induced by technological development and new market demands. Good mechanical and physical properties of wood and its easy accessibility, initiated further development and improvement of products based on this material. The aims of this improvement are more rational wood application and improvement of its physical and mechanical properties in regard to monolithic wood. In particular significant are wood-based products made from veneer layers, plywood and laminated veneer lumber (LVL). These materials stand out from other wood-based panel materials due to their mechanical and aesthetic performance. Previous application of veneer-based panels as a structural element in architecture has been implied as secondary or tertiary structural elements which transfer the load to supporting structural members, or to stiffen wooden structures. Recognition a good mechanical property of the material and its advantages as a small self-weight encouraged examining the possibilities of using wood-based panel products as the primary structural support element in exoskeleton structures, i.e. using building envelope as object structure. Application plywood and LVL is research study, so in this paper authors will analyze the possibilities of using these products as an exoskeleton supporting element, through case studies of realized experimental structures. Through research realised structures will be analysed, with a focus on shell structures. They will be evaluated through recognition of its advantages and disadvantages, especially those are directly conditioned by the structural characteristics of the material. Analyses of structures will be done according following criteria: structure design, spatial stability, span constraints, possibilities of loads the structure can support and connections between elements. In order to encourage use of veneer-based panels as load-bearing element in the exoskeleton structure, the paper will set guidelines for further research in this area and will recommend possibilities to improve mechanical characteristics of material. Rationalization of the use of wood-based panels in folded structures will highlight in paper. Forming exoskeleton structure from this material contributes rational use of the structure and raw wood materials saving.",
publisher = "Belgrade : University of Belgrade - Faculty of Architecture",
journal = "Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies",
title = "Application of veneer based panels in Exoskeleton Architecture",
doi = "10.18485/arh_pt.2020.7.ch21"
}

Sokolović, N., Kontić, A.,& Josifovski, A.. (2020). Application of veneer based panels in Exoskeleton Architecture. in Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies
Belgrade : University of Belgrade - Faculty of Architecture..
https://doi.org/10.18485/arh_pt.2020.7.ch21

Sokolović N, Kontić A, Josifovski A. Application of veneer based panels in Exoskeleton Architecture. in Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies. 2020;.
doi:10.18485/arh_pt.2020.7.ch21 .

Sokolović, Neda, Kontić, Ana, Josifovski, Andrej, "Application of veneer based panels in Exoskeleton Architecture" in Keeping up with technologies to act responsively in urban environment [Elektronski izvor] : conference proceedings / 7th international Academic Conference on Places and Technologies (2020),
https://doi.org/10.18485/arh_pt.2020.7.ch21 . .

TY  - CONF
AU  - Savanović, Dijana
AU  - Krstić-Furundžić, Aleksandra
AU  - Josifovski, Andrej
PY  - 2019
UR  - https://raf.arh.bg.ac.rs/handle/123456789/769
AB  - The aim of the research is to investigate the current developments in the use of textile membranes
in architecture. More precicely this research is focused on usage of textile membrane structures
in refurbishment of built heritage.
The main goal of the application of this type of structures is reafirmation of built heritage. The
idea is based on using this space for open air theaters and music events.
This research looks into options to find solutions which enable afirmation of historical places and
their new further usage by aplicating textile membrane structures. This will be done through
the following objectives: 1. defining textile membrane structures and other terms and concepts
important for understanding the research, 2. a historical overview of the beginning of the use
of membrane structures in refurbishment of built heritage, 3. defining set of requirements
that these structures in refurbishment of built heritage have to carry out, 4. case studies, 5.
systematization of applied materials, 6. systematization of textile membrane structures.
This would be 3-part research: 1. research of textile membrane structures and it’s application,
resulting with tipology of textile structures, 2. research of principles of built heritage protection
and presentation, resulting with set of requirements that textile membrane structure should
carry out, 3. case studies. This research is completed with examples of application of this
structures in Serbia in the context of built heritage protection and presentation.
PB  - Pécs : University of Pécs Faculty of Engineering and Information Technology
C3  - Places and technologies 2019 : keeping up with technologies to turn built heritage into the places of future generations : conference proceeding : 6th international academic conference, Pécs, Hungary, 9-10 May 2019
T1  - Textile membrane structures in refurbishment of built heritage
SP  - 538
EP  - 546
UR  - https://hdl.handle.net/21.15107/rcub_raf_769
ER  - 

@conference{
author = "Savanović, Dijana and Krstić-Furundžić, Aleksandra and Josifovski, Andrej",
year = "2019",
abstract = "The aim of the research is to investigate the current developments in the use of textile membranes
in architecture. More precicely this research is focused on usage of textile membrane structures
in refurbishment of built heritage.
The main goal of the application of this type of structures is reafirmation of built heritage. The
idea is based on using this space for open air theaters and music events.
This research looks into options to find solutions which enable afirmation of historical places and
their new further usage by aplicating textile membrane structures. This will be done through
the following objectives: 1. defining textile membrane structures and other terms and concepts
important for understanding the research, 2. a historical overview of the beginning of the use
of membrane structures in refurbishment of built heritage, 3. defining set of requirements
that these structures in refurbishment of built heritage have to carry out, 4. case studies, 5.
systematization of applied materials, 6. systematization of textile membrane structures.
This would be 3-part research: 1. research of textile membrane structures and it’s application,
resulting with tipology of textile structures, 2. research of principles of built heritage protection
and presentation, resulting with set of requirements that textile membrane structure should
carry out, 3. case studies. This research is completed with examples of application of this
structures in Serbia in the context of built heritage protection and presentation.",
publisher = "Pécs : University of Pécs Faculty of Engineering and Information Technology",
journal = "Places and technologies 2019 : keeping up with technologies to turn built heritage into the places of future generations : conference proceeding : 6th international academic conference, Pécs, Hungary, 9-10 May 2019",
title = "Textile membrane structures in refurbishment of built heritage",
pages = "538-546",
url = "https://hdl.handle.net/21.15107/rcub_raf_769"
}

Savanović, D., Krstić-Furundžić, A.,& Josifovski, A.. (2019). Textile membrane structures in refurbishment of built heritage. in Places and technologies 2019 : keeping up with technologies to turn built heritage into the places of future generations : conference proceeding : 6th international academic conference, Pécs, Hungary, 9-10 May 2019
Pécs : University of Pécs Faculty of Engineering and Information Technology., 538-546.
https://hdl.handle.net/21.15107/rcub_raf_769

Savanović D, Krstić-Furundžić A, Josifovski A. Textile membrane structures in refurbishment of built heritage. in Places and technologies 2019 : keeping up with technologies to turn built heritage into the places of future generations : conference proceeding : 6th international academic conference, Pécs, Hungary, 9-10 May 2019. 2019;:538-546.
https://hdl.handle.net/21.15107/rcub_raf_769 .

Savanović, Dijana, Krstić-Furundžić, Aleksandra, Josifovski, Andrej, "Textile membrane structures in refurbishment of built heritage" in Places and technologies 2019 : keeping up with technologies to turn built heritage into the places of future generations : conference proceeding : 6th international academic conference, Pécs, Hungary, 9-10 May 2019 (2019):538-546,
https://hdl.handle.net/21.15107/rcub_raf_769 .

TY  - JOUR
AU  - Josifovski, Andrej
AU  - Savanović, Dijana
PY  - 2017
UR  - https://raf.arh.bg.ac.rs/handle/123456789/1149
AB  - This work examines the possibility of detecting the waek points of wood structure assembly by non-destructive methods and restoring it, in a timely manner, before it comes to visible damaging. This is purpose of using X-ray examination for the sample of three types of wood: ring-porous deciduous, diffuse porous deciduous and conifers. The hypothesis was that the permeability of wood to X-ray radiation was inversely proportional to the coefficient of static resistance of wood. The mechanical properties of wood sample used in this work are approximates of their table values of coefficient of static bending stress expressed in MPs. In proving these hypotheses, X-ray machine was used, with a range of work from 40-125 kV and 0.50=360 m A/s, the same as its usage in humane medicine. This work showed that by X-rays we could successfully establish quality properties of certain types of wood and by that its best usage, which is, for example, of special interest for restoration and reconstruction of objects of cultural and historical value. Non-destructive methods of testing wood structure assembly certainly justify their role in that field and they require further research and development.
PB  - Belgrade : University of Belgrade, Faculty of Architecture
T2  - SAJ : Serbian architectural journal
T1  - Non - destructive testing of wood structures by X -rays
VL  - 9
IS  - 1
SP  - 51
EP  - 64
UR  - https://hdl.handle.net/21.15107/rcub_raf_1149
ER  - 

@article{
author = "Josifovski, Andrej and Savanović, Dijana",
year = "2017",
abstract = "This work examines the possibility of detecting the waek points of wood structure assembly by non-destructive methods and restoring it, in a timely manner, before it comes to visible damaging. This is purpose of using X-ray examination for the sample of three types of wood: ring-porous deciduous, diffuse porous deciduous and conifers. The hypothesis was that the permeability of wood to X-ray radiation was inversely proportional to the coefficient of static resistance of wood. The mechanical properties of wood sample used in this work are approximates of their table values of coefficient of static bending stress expressed in MPs. In proving these hypotheses, X-ray machine was used, with a range of work from 40-125 kV and 0.50=360 m A/s, the same as its usage in humane medicine. This work showed that by X-rays we could successfully establish quality properties of certain types of wood and by that its best usage, which is, for example, of special interest for restoration and reconstruction of objects of cultural and historical value. Non-destructive methods of testing wood structure assembly certainly justify their role in that field and they require further research and development.",
publisher = "Belgrade : University of Belgrade, Faculty of Architecture",
journal = "SAJ : Serbian architectural journal",
title = "Non - destructive testing of wood structures by X -rays",
volume = "9",
number = "1",
pages = "51-64",
url = "https://hdl.handle.net/21.15107/rcub_raf_1149"
}

Josifovski, A.,& Savanović, D.. (2017). Non - destructive testing of wood structures by X -rays. in SAJ : Serbian architectural journal
Belgrade : University of Belgrade, Faculty of Architecture., 9(1), 51-64.
https://hdl.handle.net/21.15107/rcub_raf_1149

Josifovski A, Savanović D. Non - destructive testing of wood structures by X -rays. in SAJ : Serbian architectural journal. 2017;9(1):51-64.
https://hdl.handle.net/21.15107/rcub_raf_1149 .

Josifovski, Andrej, Savanović, Dijana, "Non - destructive testing of wood structures by X -rays" in SAJ : Serbian architectural journal, 9, no. 1 (2017):51-64,
https://hdl.handle.net/21.15107/rcub_raf_1149 .

TY  - CONF
AU  - Marčetić, Dragan
AU  - Josifovski, Andrej
PY  - 2016
UR  - https://raf.arh.bg.ac.rs/handle/123456789/505
AB  - The concept of smart architecture has become quite accepted as one of the established
standards in architectural design. Already long-established concept but also a platform of
contemporary architecture which is necessary for further experimentation. The rapid
development and use of computers and accompanying digitalization, primarily low-current,
enabled the installation control and achieved more rational consumption and energy savings,
while on the other hand, we have also controlled regimes and comfortable way of using space.
Fields that open the concept of smart houses are much broader spectrum than it was originally
thought. Smart House is not only architecture supported by modern technologies that performs
energy saving, but more comfortable use than its own potential, only to allow users with limited
needs, the elderly as well as to specific categories of patients in home care receive adequate,
maximum comfortable and safe operating space. With the additional use of "e" technology, this
space offers entirely new possibilities and forms of functioning in the cities. In addition to
working from home, there is the option of doing business on the move, and all this through a new
mapping of the city in terms of business and movement. This minimizes the need of public
transport, introducing remote nursing care at specific categories and increase the safety of life. In
Serbia, the concept of smart houses is primarily based on the use of novelty which, as it is, can
help achieve quality and increase the value of real estate which has been offered as a product of
smart architecture. Introduction smart technology is an expensive proposition for a richer
environment, because as such must be supported by systemic reforms and interventions. The
framework of this paper is a case study - one Serbian experience in the design and construction
of residential and commercial building in Dobra�����ina Street in Belgrade who joined the family of
smart architecture.
PB  - Belgrade : University of Belgrade - Faculty of Architecture
C3  - Conference Proceedings [Elektronski izvor] / 3rd international Academic Conference on Places and Technologies, [14-15.04.2016, Belgrade]
T1  - The concept of smart architecture in Serbia - one Belgrade expirience
SP  - 747
EP  - 753
UR  - https://hdl.handle.net/21.15107/rcub_raf_505
ER  - 

@conference{
author = "Marčetić, Dragan and Josifovski, Andrej",
year = "2016",
abstract = "The concept of smart architecture has become quite accepted as one of the established
standards in architectural design. Already long-established concept but also a platform of
contemporary architecture which is necessary for further experimentation. The rapid
development and use of computers and accompanying digitalization, primarily low-current,
enabled the installation control and achieved more rational consumption and energy savings,
while on the other hand, we have also controlled regimes and comfortable way of using space.
Fields that open the concept of smart houses are much broader spectrum than it was originally
thought. Smart House is not only architecture supported by modern technologies that performs
energy saving, but more comfortable use than its own potential, only to allow users with limited
needs, the elderly as well as to specific categories of patients in home care receive adequate,
maximum comfortable and safe operating space. With the additional use of "e" technology, this
space offers entirely new possibilities and forms of functioning in the cities. In addition to
working from home, there is the option of doing business on the move, and all this through a new
mapping of the city in terms of business and movement. This minimizes the need of public
transport, introducing remote nursing care at specific categories and increase the safety of life. In
Serbia, the concept of smart houses is primarily based on the use of novelty which, as it is, can
help achieve quality and increase the value of real estate which has been offered as a product of
smart architecture. Introduction smart technology is an expensive proposition for a richer
environment, because as such must be supported by systemic reforms and interventions. The
framework of this paper is a case study - one Serbian experience in the design and construction
of residential and commercial building in Dobra�����ina Street in Belgrade who joined the family of
smart architecture.",
publisher = "Belgrade : University of Belgrade - Faculty of Architecture",
journal = "Conference Proceedings [Elektronski izvor] / 3rd international Academic Conference on Places and Technologies, [14-15.04.2016, Belgrade]",
title = "The concept of smart architecture in Serbia - one Belgrade expirience",
pages = "747-753",
url = "https://hdl.handle.net/21.15107/rcub_raf_505"
}

Marčetić, D.,& Josifovski, A.. (2016). The concept of smart architecture in Serbia - one Belgrade expirience. in Conference Proceedings [Elektronski izvor] / 3rd international Academic Conference on Places and Technologies, [14-15.04.2016, Belgrade]
Belgrade : University of Belgrade - Faculty of Architecture., 747-753.
https://hdl.handle.net/21.15107/rcub_raf_505

Marčetić D, Josifovski A. The concept of smart architecture in Serbia - one Belgrade expirience. in Conference Proceedings [Elektronski izvor] / 3rd international Academic Conference on Places and Technologies, [14-15.04.2016, Belgrade]. 2016;:747-753.
https://hdl.handle.net/21.15107/rcub_raf_505 .

Marčetić, Dragan, Josifovski, Andrej, "The concept of smart architecture in Serbia - one Belgrade expirience" in Conference Proceedings [Elektronski izvor] / 3rd international Academic Conference on Places and Technologies, [14-15.04.2016, Belgrade] (2016):747-753,
https://hdl.handle.net/21.15107/rcub_raf_505 .