TY  - CONF
AU  - Lojanica, Vladimir
AU  - Čolić-Damjanović, Vesna Mila
AU  - Janković, Novica
PY  - 2019
UR  - https://raf.arh.bg.ac.rs/handle/123456789/345
AB  - The housing problems of the 21st century that include continuous urbanization, overpopulation, pollution, energy deficiency, land shortage and lack of affordable housing cannot be solved by applying housing solutions of the 20th century. The paradigm shift initiated by the disruptive new technological development of the fourth industrial revolution is offering substitution to the conventional understanding of housing design, its production processes and radically change the way we live and work. This paper examines and describes new prospects, opportunities and limits of housing design by the use of innovative advanced 3D printing technologies with CAD/CAM systems that introduce new possibilities to the process of housing design, fabrication and construction. These new possibilities in housing design include research in form, function, structure and materials, and have profound influence on both architectural research design, its production process and significantly reduce overall investments, time and resources, materials and labour use, decrease pollution and energy use.
PB  - Institute of Electrical and Electronics Engineers Inc.
C3  - Proceedings of the 2018 5th International Symposium on Environment-Friendly Energies and Application
T1  - Housing of the Future: Housing Design of the Fourth Industrial Revolution
DO  - 10.1109/EFEA.2018.8617094
ER  - 

@conference{
author = "Lojanica, Vladimir and Čolić-Damjanović, Vesna Mila and Janković, Novica",
year = "2019",
abstract = "The housing problems of the 21st century that include continuous urbanization, overpopulation, pollution, energy deficiency, land shortage and lack of affordable housing cannot be solved by applying housing solutions of the 20th century. The paradigm shift initiated by the disruptive new technological development of the fourth industrial revolution is offering substitution to the conventional understanding of housing design, its production processes and radically change the way we live and work. This paper examines and describes new prospects, opportunities and limits of housing design by the use of innovative advanced 3D printing technologies with CAD/CAM systems that introduce new possibilities to the process of housing design, fabrication and construction. These new possibilities in housing design include research in form, function, structure and materials, and have profound influence on both architectural research design, its production process and significantly reduce overall investments, time and resources, materials and labour use, decrease pollution and energy use.",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
journal = "Proceedings of the 2018 5th International Symposium on Environment-Friendly Energies and Application",
title = "Housing of the Future: Housing Design of the Fourth Industrial Revolution",
doi = "10.1109/EFEA.2018.8617094"
}

Lojanica, V., Čolić-Damjanović, V. M.,& Janković, N.. (2019). Housing of the Future: Housing Design of the Fourth Industrial Revolution. in Proceedings of the 2018 5th International Symposium on Environment-Friendly Energies and Application
Institute of Electrical and Electronics Engineers Inc...
https://doi.org/10.1109/EFEA.2018.8617094

Lojanica V, Čolić-Damjanović VM, Janković N. Housing of the Future: Housing Design of the Fourth Industrial Revolution. in Proceedings of the 2018 5th International Symposium on Environment-Friendly Energies and Application. 2019;.
doi:10.1109/EFEA.2018.8617094 .

Lojanica, Vladimir, Čolić-Damjanović, Vesna Mila, Janković, Novica, "Housing of the Future: Housing Design of the Fourth Industrial Revolution" in Proceedings of the 2018 5th International Symposium on Environment-Friendly Energies and Application (2019),
https://doi.org/10.1109/EFEA.2018.8617094 . .

TY  - THES
AU  - Terzović, Jefto
PY  - 2016
UR  - http://eteze.bg.ac.rs/application/showtheses?thesesId=4838
UR  - https://fedorabg.bg.ac.rs/fedora/get/o:15168/bdef:Content/download
UR  - http://vbs.rs/scripts/cobiss?command=DISPLAY&base=70036&RID=513084561
UR  - http://nardus.mpn.gov.rs/123456789/7950
UR  - https://raf.arh.bg.ac.rs/handle/123456789/379
AB  - The thesis proposes a design concept of seismic resistant architectural structures by using unconventional materials-laminated glass and laminated klirit, materials that are not usually used in construction design for that purpose, although being widespread and easily available, and therefore defined as unconventional. In the proposed design concept, laminated glass and laminated klirit are considered as a filling in a steel frame on which they overlap by the intermediate rubber layer, thereby forming a composite assembly. In this way vertical elements of stiffening are formed, capable for reception of seismic force and integrated into the structural system of the building. The applicability of such a system was verified by experiments in laboratory conditions where the experimental models based on laminated glass and laminated klirit had been exposed to the cyclic loads that simulate the seismic force. In this way the load capacity of composite assemblies was tested for the effects of dynamic load that was parallel to assembly plane. Thus, the stress intensity to which composite systems might be exposed was determined as well as the range of the structure stiffening referring to the expressed deformation along with the advantages of a particular type of filling compared to the other one. Using specialized software whose operation is based on the finite element method, a computer model of the structure was created and processed in the case study; the same computer model was used for analyzing the problem in the first phase of the design process. The stiffening system based on composite assemblies tested in laboratories is implemented in the computer model. The results of the modal analysis and seismic calculation from the computer model with stiffeners applied showed an efficacy of such a solution, thus rounding the design procedures for aseismic stiffening by using unconventional materials...
AB  - У тези је предложен концепт пројектовања сеизмички отпорних архитектонских објеката, употребом неконвенционалних материјала – ламелираног стакла и ламелираног клирита, који се у грађевинарству најчешће не користе у ту сврху, па су, иако широко распрострањени и лако доступни, дефинисани као неконвенционални. Предложеним концептом пројектовања, ламелирано стакло и ламелирани клирит, предвиђени су као испуна у челичном раму, на који належу посредством интермедијалног слоја гуме, чиме се формира композитни склоп. На тај начин се формирају вертикални елементи укрућења, интегрисани у конструктивни систем објекта, оспособљени за пријем сеизмичке силе. Применљивост таквог система, проверена је експериментом у лабораторијским условима, где су експериментални модели на бази ламелираног стакла и ламелираног клирита излагани дејству цикличног оптерећења, које симулира сеизмичку силу. Тиме је проверен капацитет носивости композитних склопова, за дејство динамичког оптерећења, паралелног равни склопа. Утврђен је интензитет напрезања којем композитни склопови могу бити изложени, степен укрућења конструкције у смислу исказаних деформација, као и предности једне врсте испуне у односу на другу. Помоћу специјализованог софтвера, чији се рад базира на методи коначних елемената, креиран је рачунарски модел конструкције објекта који је обрађиван у студији случаја, који је у првој фази процеса пројектовања служио за анализу проблема. У тај рачунарски модел, имплементиран је систем укрућења на бази композитних склопова испитаних у лабораторији. Резултати модалне анализе и сеизмичког прорачуна из рачунарског модела са примењеним укрућењима, показали су ефикасност решења, чиме је заокружена процедура пројектовања асеизмичког укрућења коришћењем неконвенционалних материјала...
PB  - Универзитет у Београду, Архитектонски факултет
T2  - Универзитет у Београду
T1  - Design of seismic resistant architectural structures by using panels of construction glass or polycarbonates
T1  - Пројектовање сеизмички отпорних архитектонских објеката коришћењем панела од конструкционог стакла или поликарбоната
UR  - https://hdl.handle.net/21.15107/rcub_nardus_7950
ER  - 

@phdthesis{
author = "Terzović, Jefto",
year = "2016",
abstract = "The thesis proposes a design concept of seismic resistant architectural structures by using unconventional materials-laminated glass and laminated klirit, materials that are not usually used in construction design for that purpose, although being widespread and easily available, and therefore defined as unconventional. In the proposed design concept, laminated glass and laminated klirit are considered as a filling in a steel frame on which they overlap by the intermediate rubber layer, thereby forming a composite assembly. In this way vertical elements of stiffening are formed, capable for reception of seismic force and integrated into the structural system of the building. The applicability of such a system was verified by experiments in laboratory conditions where the experimental models based on laminated glass and laminated klirit had been exposed to the cyclic loads that simulate the seismic force. In this way the load capacity of composite assemblies was tested for the effects of dynamic load that was parallel to assembly plane. Thus, the stress intensity to which composite systems might be exposed was determined as well as the range of the structure stiffening referring to the expressed deformation along with the advantages of a particular type of filling compared to the other one. Using specialized software whose operation is based on the finite element method, a computer model of the structure was created and processed in the case study; the same computer model was used for analyzing the problem in the first phase of the design process. The stiffening system based on composite assemblies tested in laboratories is implemented in the computer model. The results of the modal analysis and seismic calculation from the computer model with stiffeners applied showed an efficacy of such a solution, thus rounding the design procedures for aseismic stiffening by using unconventional materials..., У тези је предложен концепт пројектовања сеизмички отпорних архитектонских објеката, употребом неконвенционалних материјала – ламелираног стакла и ламелираног клирита, који се у грађевинарству најчешће не користе у ту сврху, па су, иако широко распрострањени и лако доступни, дефинисани као неконвенционални. Предложеним концептом пројектовања, ламелирано стакло и ламелирани клирит, предвиђени су као испуна у челичном раму, на који належу посредством интермедијалног слоја гуме, чиме се формира композитни склоп. На тај начин се формирају вертикални елементи укрућења, интегрисани у конструктивни систем објекта, оспособљени за пријем сеизмичке силе. Применљивост таквог система, проверена је експериментом у лабораторијским условима, где су експериментални модели на бази ламелираног стакла и ламелираног клирита излагани дејству цикличног оптерећења, које симулира сеизмичку силу. Тиме је проверен капацитет носивости композитних склопова, за дејство динамичког оптерећења, паралелног равни склопа. Утврђен је интензитет напрезања којем композитни склопови могу бити изложени, степен укрућења конструкције у смислу исказаних деформација, као и предности једне врсте испуне у односу на другу. Помоћу специјализованог софтвера, чији се рад базира на методи коначних елемената, креиран је рачунарски модел конструкције објекта који је обрађиван у студији случаја, који је у првој фази процеса пројектовања служио за анализу проблема. У тај рачунарски модел, имплементиран је систем укрућења на бази композитних склопова испитаних у лабораторији. Резултати модалне анализе и сеизмичког прорачуна из рачунарског модела са примењеним укрућењима, показали су ефикасност решења, чиме је заокружена процедура пројектовања асеизмичког укрућења коришћењем неконвенционалних материјала...",
publisher = "Универзитет у Београду, Архитектонски факултет",
journal = "Универзитет у Београду",
title = "Design of seismic resistant architectural structures by using panels of construction glass or polycarbonates, Пројектовање сеизмички отпорних архитектонских објеката коришћењем панела од конструкционог стакла или поликарбоната",
url = "https://hdl.handle.net/21.15107/rcub_nardus_7950"
}

Terzović, J.. (2016). Design of seismic resistant architectural structures by using panels of construction glass or polycarbonates. in Универзитет у Београду
Универзитет у Београду, Архитектонски факултет..
https://hdl.handle.net/21.15107/rcub_nardus_7950

Terzović J. Design of seismic resistant architectural structures by using panels of construction glass or polycarbonates. in Универзитет у Београду. 2016;.
https://hdl.handle.net/21.15107/rcub_nardus_7950 .

Terzović, Jefto, "Design of seismic resistant architectural structures by using panels of construction glass or polycarbonates" in Универзитет у Београду (2016),
https://hdl.handle.net/21.15107/rcub_nardus_7950 .

TY  - CONF
AU  - Vuja, Aleksandru
AU  - Lecic, Milan
AU  - Čolić-Damjanović, Vesna Mila
PY  - 2016
UR  - https://raf.arh.bg.ac.rs/handle/123456789/232
AB  - Paradigm shift in architectural design initiated by new technological developments has replaced conventional processes of architectural model design with dynamic transformative ones. This paper examines some of the recent developments in the architectural design through analysis of selected architectural projects and their models. The focus of the paper is the analysis of some new approaches in architectural design through implementation of digital design and novel digital fabrication technologies.
PB  - Institute of Electrical and Electronics Engineers Inc.
C3  - 1st International Conference on Multidisciplinary Engineering Design Optimization, MEDO 2016
T1  - Conducting Architectural Experiments: Some new approaches in architectural design
DO  - 10.1109/MEDO.2016.7746542
ER  - 

@conference{
author = "Vuja, Aleksandru and Lecic, Milan and Čolić-Damjanović, Vesna Mila",
year = "2016",
abstract = "Paradigm shift in architectural design initiated by new technological developments has replaced conventional processes of architectural model design with dynamic transformative ones. This paper examines some of the recent developments in the architectural design through analysis of selected architectural projects and their models. The focus of the paper is the analysis of some new approaches in architectural design through implementation of digital design and novel digital fabrication technologies.",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
journal = "1st International Conference on Multidisciplinary Engineering Design Optimization, MEDO 2016",
title = "Conducting Architectural Experiments: Some new approaches in architectural design",
doi = "10.1109/MEDO.2016.7746542"
}

Vuja, A., Lecic, M.,& Čolić-Damjanović, V. M.. (2016). Conducting Architectural Experiments: Some new approaches in architectural design. in 1st International Conference on Multidisciplinary Engineering Design Optimization, MEDO 2016
Institute of Electrical and Electronics Engineers Inc...
https://doi.org/10.1109/MEDO.2016.7746542

Vuja A, Lecic M, Čolić-Damjanović VM. Conducting Architectural Experiments: Some new approaches in architectural design. in 1st International Conference on Multidisciplinary Engineering Design Optimization, MEDO 2016. 2016;.
doi:10.1109/MEDO.2016.7746542 .

Vuja, Aleksandru, Lecic, Milan, Čolić-Damjanović, Vesna Mila, "Conducting Architectural Experiments: Some new approaches in architectural design" in 1st International Conference on Multidisciplinary Engineering Design Optimization, MEDO 2016 (2016),
https://doi.org/10.1109/MEDO.2016.7746542 . .