TY  - JOUR
AU  - Šijaković, Milan
AU  - Perić, Ana
PY  - 2018
UR  - https://raf.arh.bg.ac.rs/handle/123456789/721
AB  - The study seeks to examine the possibility of implementing the biological concept of symbiosis into the field of architecture for redefining the design principles of architectural recycling. Through an in-depth analysis of the biological concept of symbiosis (i.e., a close and often long-term interaction between two or more different biological species and the criteria that govern the differentiation between symbiotic associations), three redefined design principles of recycling—commensalism, mutualism, and parasitism—have been described, which form the base for defining the “recycling model.” Its value is in its multidisciplinary character and its systematic approach to the topic of recycling architecture. The principles embedded in this model relate to the aspects of structure, material, form, and spatial organization. The research methodology includes three case studies, which correspond to three redefined design principles and illustrate their basic characteristics. The research draws upon the biological concept of symbiosis, and its purpose is to elaborate possible structural, material, formal, and spatial relationships between the existing building and the new intervention in architectural recycling.
PB  - Elsevier B.V. on behalf of Higher Education Press Limited Company
T2  - Frontiers of Architectural Research
T1  - Symbiotic architecture: Redefinition of recycling design principles
VL  - 7
SP  - 67
EP  - 79
DO  - 10.1016/j.foar.2017.12.002
ER  - 

@article{
author = "Šijaković, Milan and Perić, Ana",
year = "2018",
abstract = "The study seeks to examine the possibility of implementing the biological concept of symbiosis into the field of architecture for redefining the design principles of architectural recycling. Through an in-depth analysis of the biological concept of symbiosis (i.e., a close and often long-term interaction between two or more different biological species and the criteria that govern the differentiation between symbiotic associations), three redefined design principles of recycling—commensalism, mutualism, and parasitism—have been described, which form the base for defining the “recycling model.” Its value is in its multidisciplinary character and its systematic approach to the topic of recycling architecture. The principles embedded in this model relate to the aspects of structure, material, form, and spatial organization. The research methodology includes three case studies, which correspond to three redefined design principles and illustrate their basic characteristics. The research draws upon the biological concept of symbiosis, and its purpose is to elaborate possible structural, material, formal, and spatial relationships between the existing building and the new intervention in architectural recycling.",
publisher = "Elsevier B.V. on behalf of Higher Education Press Limited Company",
journal = "Frontiers of Architectural Research",
title = "Symbiotic architecture: Redefinition of recycling design principles",
volume = "7",
pages = "67-79",
doi = "10.1016/j.foar.2017.12.002"
}

Šijaković, M.,& Perić, A.. (2018). Symbiotic architecture: Redefinition of recycling design principles. in Frontiers of Architectural Research
Elsevier B.V. on behalf of Higher Education Press Limited Company., 7, 67-79.
https://doi.org/10.1016/j.foar.2017.12.002

Šijaković M, Perić A. Symbiotic architecture: Redefinition of recycling design principles. in Frontiers of Architectural Research. 2018;7:67-79.
doi:10.1016/j.foar.2017.12.002 .

Šijaković, Milan, Perić, Ana, "Symbiotic architecture: Redefinition of recycling design principles" in Frontiers of Architectural Research, 7 (2018):67-79,
https://doi.org/10.1016/j.foar.2017.12.002 . .

TY  - CONF
AU  - Šijaković, Milan
AU  - Perić, Ana
PY  - 2014
UR  - https://raf.arh.bg.ac.rs/handle/123456789/532
AB  - The sustainable management of city resources (land, infrastructure, suprastructure) is one of the crucial
urban processes to which the ‘smart cities’ concept should be addressed. In other words, resource
conservation is highly important question nowadays. Namely, only a small percentage of the total building
stock is made up of new works. This inevitably means that the general refurbishment and adaptive reuse will
significantly benefit the sustainability agenda in the next twenty years, which will, further, make our cities
smarter. Since most buildings are physically suitable to various uses, flexibility and ‘long life – loose fit’
should be a guiding principle behind most design briefs. The recycling of existing buildings has several
benefits, such as: decreasing the pressure on new land, preserving the embodied energy of building materials,
saving new materials form being used, cutting the associated environmental impacts of producing and
transporting new materials, and, finally, involvment the lesser generation of residues in relation to a totally
new construction. Thus, the subject of this research relates to the definition of recycling principles for
sustainable architectural design. According to this, contemporary literature on recycling in architecture has
been evaluated, compared and analysed. It is hypothesised that in order to produce least environmental
damage the recycling intervention should use as much of the original building’s material as possible. Thus,
physical characteristics of the original building define which design principle is most adequate for its
recycling. Such an literature overview enabled the creation of so-called recycling model, which establishes a
link between the physical characteristics of underused buildings, on the one hand, and the design principle
most environmentally sustainable for its recycling, on the other. This model provides a fresh understanding
of how an extensive range of physical characteristics of building can be considered in a systematic way in
order to choose the most suitable design principle in the recycling process. Its elaboration is the focus of the
research.
PB  - Schwechat : CORP - Competence Center of Urban and Regional Planning
C3  - REAL CORP 2014. Plan it Smart – Clever Solutions for Smart Cities : Proceedings of 19th international conference on Urban Planning and Spatial Development in the Information Society
T1  - Recycling Architecture: the Redefinition of Recycling Principles in the Context of Sustainable Architectural Design
SP  - 467
EP  - 476
UR  - https://hdl.handle.net/21.15107/rcub_raf_532
ER  - 

@conference{
author = "Šijaković, Milan and Perić, Ana",
year = "2014",
abstract = "The sustainable management of city resources (land, infrastructure, suprastructure) is one of the crucial
urban processes to which the ‘smart cities’ concept should be addressed. In other words, resource
conservation is highly important question nowadays. Namely, only a small percentage of the total building
stock is made up of new works. This inevitably means that the general refurbishment and adaptive reuse will
significantly benefit the sustainability agenda in the next twenty years, which will, further, make our cities
smarter. Since most buildings are physically suitable to various uses, flexibility and ‘long life – loose fit’
should be a guiding principle behind most design briefs. The recycling of existing buildings has several
benefits, such as: decreasing the pressure on new land, preserving the embodied energy of building materials,
saving new materials form being used, cutting the associated environmental impacts of producing and
transporting new materials, and, finally, involvment the lesser generation of residues in relation to a totally
new construction. Thus, the subject of this research relates to the definition of recycling principles for
sustainable architectural design. According to this, contemporary literature on recycling in architecture has
been evaluated, compared and analysed. It is hypothesised that in order to produce least environmental
damage the recycling intervention should use as much of the original building’s material as possible. Thus,
physical characteristics of the original building define which design principle is most adequate for its
recycling. Such an literature overview enabled the creation of so-called recycling model, which establishes a
link between the physical characteristics of underused buildings, on the one hand, and the design principle
most environmentally sustainable for its recycling, on the other. This model provides a fresh understanding
of how an extensive range of physical characteristics of building can be considered in a systematic way in
order to choose the most suitable design principle in the recycling process. Its elaboration is the focus of the
research.",
publisher = "Schwechat : CORP - Competence Center of Urban and Regional Planning",
journal = "REAL CORP 2014. Plan it Smart – Clever Solutions for Smart Cities : Proceedings of 19th international conference on Urban Planning and Spatial Development in the Information Society",
title = "Recycling Architecture: the Redefinition of Recycling Principles in the Context of Sustainable Architectural Design",
pages = "467-476",
url = "https://hdl.handle.net/21.15107/rcub_raf_532"
}

Šijaković, M.,& Perić, A.. (2014). Recycling Architecture: the Redefinition of Recycling Principles in the Context of Sustainable Architectural Design. in REAL CORP 2014. Plan it Smart – Clever Solutions for Smart Cities : Proceedings of 19th international conference on Urban Planning and Spatial Development in the Information Society
Schwechat : CORP - Competence Center of Urban and Regional Planning., 467-476.
https://hdl.handle.net/21.15107/rcub_raf_532

Šijaković M, Perić A. Recycling Architecture: the Redefinition of Recycling Principles in the Context of Sustainable Architectural Design. in REAL CORP 2014. Plan it Smart – Clever Solutions for Smart Cities : Proceedings of 19th international conference on Urban Planning and Spatial Development in the Information Society. 2014;:467-476.
https://hdl.handle.net/21.15107/rcub_raf_532 .

Šijaković, Milan, Perić, Ana, "Recycling Architecture: the Redefinition of Recycling Principles in the Context of Sustainable Architectural Design" in REAL CORP 2014. Plan it Smart – Clever Solutions for Smart Cities : Proceedings of 19th international conference on Urban Planning and Spatial Development in the Information Society (2014):467-476,
https://hdl.handle.net/21.15107/rcub_raf_532 .