ºÝºÝߣshows by User: DrMaibrittPedersenZa / http://www.slideshare.net/images/logo.gif ºÝºÝߣshows by User: DrMaibrittPedersenZa / Mon, 02 Feb 2015 15:53:50 GMT ºÝºÝߣShare feed for ºÝºÝߣshows by User: DrMaibrittPedersenZa How to get people to see your research and build a following. For architecture and creative academics /slideshow/how-to-get-people-to-see-your-research-and-build-a-following-for-architecture-and-creative-academics/44179526 gettingyourselfouttherepublic-150202155350-conversion-gate02
Ideas for academics of architecture, design or other creative disciplines to get more people to see their research or hear about their ideas.]]>

Ideas for academics of architecture, design or other creative disciplines to get more people to see their research or hear about their ideas.]]>
Mon, 02 Feb 2015 15:53:50 GMT /slideshow/how-to-get-people-to-see-your-research-and-build-a-following-for-architecture-and-creative-academics/44179526 DrMaibrittPedersenZa@slideshare.net(DrMaibrittPedersenZa) How to get people to see your research and build a following. For architecture and creative academics DrMaibrittPedersenZa Ideas for academics of architecture, design or other creative disciplines to get more people to see their research or hear about their ideas. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/gettingyourselfouttherepublic-150202155350-conversion-gate02-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Ideas for academics of architecture, design or other creative disciplines to get more people to see their research or hear about their ideas.
How to get people to see your research and build a following. For architecture and creative academics from Dr Maibritt Pedersen Zari
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An architectural love of the living: Bio-inspired design in the pursuit of ecological regeneration and psychological wellbeing /slideshow/final-presentation2-43446163/43446163 finalpresentation2-150112172501-conversion-gate01
Conference presentation: 2009, Pedersen Zari, M. 'An architectural love of the living: Bio-inspired design in the pursuit of ecological regeneration and psychological wellbeing'. In Brebbia, C. (Ed), Sustainable Development IV, WIT Press. A growing amount of architectural discourse explores analogies between ecosystems and living organisms, and architectural design that increases the capacity for regeneration. This is referred to here as bio-inspired design. This paper examines the relationship between biophilic and biomimetic approaches to architectural design as two aspects of bio-inspired design. The theory that bio-inspired design is inherently linked in the creation of regenerative architecture, able to increase capacity for self repair in both living ecosystems and the human psyche is examined. Intersections, or mutualisms between design to improve the wellbeing of ecosystems and design to improve human wellbeing, such as biomimicry and biophilia, are analysed and may illustrate the key aspects of bio-inspired design that could contribute to regenerative design. The implications of such an approach are discussed, and the scientific basis of such a process is investigated.]]>

Conference presentation: 2009, Pedersen Zari, M. 'An architectural love of the living: Bio-inspired design in the pursuit of ecological regeneration and psychological wellbeing'. In Brebbia, C. (Ed), Sustainable Development IV, WIT Press. A growing amount of architectural discourse explores analogies between ecosystems and living organisms, and architectural design that increases the capacity for regeneration. This is referred to here as bio-inspired design. This paper examines the relationship between biophilic and biomimetic approaches to architectural design as two aspects of bio-inspired design. The theory that bio-inspired design is inherently linked in the creation of regenerative architecture, able to increase capacity for self repair in both living ecosystems and the human psyche is examined. Intersections, or mutualisms between design to improve the wellbeing of ecosystems and design to improve human wellbeing, such as biomimicry and biophilia, are analysed and may illustrate the key aspects of bio-inspired design that could contribute to regenerative design. The implications of such an approach are discussed, and the scientific basis of such a process is investigated.]]>
Mon, 12 Jan 2015 17:25:01 GMT /slideshow/final-presentation2-43446163/43446163 DrMaibrittPedersenZa@slideshare.net(DrMaibrittPedersenZa) An architectural love of the living: Bio-inspired design in the pursuit of ecological regeneration and psychological wellbeing DrMaibrittPedersenZa Conference presentation: 2009, Pedersen Zari, M. 'An architectural love of the living: Bio-inspired design in the pursuit of ecological regeneration and psychological wellbeing'. In Brebbia, C. (Ed), Sustainable Development IV, WIT Press. A growing amount of architectural discourse explores analogies between ecosystems and living organisms, and architectural design that increases the capacity for regeneration. This is referred to here as bio-inspired design. This paper examines the relationship between biophilic and biomimetic approaches to architectural design as two aspects of bio-inspired design. The theory that bio-inspired design is inherently linked in the creation of regenerative architecture, able to increase capacity for self repair in both living ecosystems and the human psyche is examined. Intersections, or mutualisms between design to improve the wellbeing of ecosystems and design to improve human wellbeing, such as biomimicry and biophilia, are analysed and may illustrate the key aspects of bio-inspired design that could contribute to regenerative design. The implications of such an approach are discussed, and the scientific basis of such a process is investigated. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/finalpresentation2-150112172501-conversion-gate01-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Conference presentation: 2009, Pedersen Zari, M. &#39;An architectural love of the living: Bio-inspired design in the pursuit of ecological regeneration and psychological wellbeing&#39;. In Brebbia, C. (Ed), Sustainable Development IV, WIT Press. A growing amount of architectural discourse explores analogies between ecosystems and living organisms, and architectural design that increases the capacity for regeneration. This is referred to here as bio-inspired design. This paper examines the relationship between biophilic and biomimetic approaches to architectural design as two aspects of bio-inspired design. The theory that bio-inspired design is inherently linked in the creation of regenerative architecture, able to increase capacity for self repair in both living ecosystems and the human psyche is examined. Intersections, or mutualisms between design to improve the wellbeing of ecosystems and design to improve human wellbeing, such as biomimicry and biophilia, are analysed and may illustrate the key aspects of bio-inspired design that could contribute to regenerative design. The implications of such an approach are discussed, and the scientific basis of such a process is investigated.
An architectural love of the living: Bio-inspired design in the pursuit of ecological regeneration and psychological wellbeing from Dr Maibritt Pedersen Zari
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An Ecosystem Based Biomimetic Theory for a Regenerative Built Environment /slideshow/an-ecosystem-based-biomimetic-theory-for-a-regenerative/43445978 anecosystembasedbiomimetictheoryforaregenerative-150112171720-conversion-gate02
Conference Presentation: 2007, Pedersen Zari, M and Storey, J. ‘An Ecosystem Based Biomimetic Theory for a Regenerative Built Environment’, Sustainable Building (SB07) Regional Sustainable Building Conference, Lisbon, Portugal, September 2007. Biomimicry, where flora, fauna or entire ecosystems are emulated as a basis for design, has attracted considerable interest in the fields of architectural design and engineering as an innovative new design approach and importantly as a potential way to shift the built environment to a more sustainable paradigm. The practical application of biomimicry as a design methodology, particularly in the built environment, remains elusive however. This paper seeks to contextualise the various approaches to biomimicry and provides an inte-grated set of principles that could form the basis for an ecosystem based design theory. This would enable practitioners to reach beyond sustainability to a regenerative design practice where the built environment becomes a vital component in the integration with and regeneration of natural ecosystems as the wider human habitat.]]>

Conference Presentation: 2007, Pedersen Zari, M and Storey, J. ‘An Ecosystem Based Biomimetic Theory for a Regenerative Built Environment’, Sustainable Building (SB07) Regional Sustainable Building Conference, Lisbon, Portugal, September 2007. Biomimicry, where flora, fauna or entire ecosystems are emulated as a basis for design, has attracted considerable interest in the fields of architectural design and engineering as an innovative new design approach and importantly as a potential way to shift the built environment to a more sustainable paradigm. The practical application of biomimicry as a design methodology, particularly in the built environment, remains elusive however. This paper seeks to contextualise the various approaches to biomimicry and provides an inte-grated set of principles that could form the basis for an ecosystem based design theory. This would enable practitioners to reach beyond sustainability to a regenerative design practice where the built environment becomes a vital component in the integration with and regeneration of natural ecosystems as the wider human habitat.]]>
Mon, 12 Jan 2015 17:17:20 GMT /slideshow/an-ecosystem-based-biomimetic-theory-for-a-regenerative/43445978 DrMaibrittPedersenZa@slideshare.net(DrMaibrittPedersenZa) An Ecosystem Based Biomimetic Theory for a Regenerative Built Environment DrMaibrittPedersenZa Conference Presentation: 2007, Pedersen Zari, M and Storey, J. ‘An Ecosystem Based Biomimetic Theory for a Regenerative Built Environment’, Sustainable Building (SB07) Regional Sustainable Building Conference, Lisbon, Portugal, September 2007. Biomimicry, where flora, fauna or entire ecosystems are emulated as a basis for design, has attracted considerable interest in the fields of architectural design and engineering as an innovative new design approach and importantly as a potential way to shift the built environment to a more sustainable paradigm. The practical application of biomimicry as a design methodology, particularly in the built environment, remains elusive however. This paper seeks to contextualise the various approaches to biomimicry and provides an inte-grated set of principles that could form the basis for an ecosystem based design theory. This would enable practitioners to reach beyond sustainability to a regenerative design practice where the built environment becomes a vital component in the integration with and regeneration of natural ecosystems as the wider human habitat. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/anecosystembasedbiomimetictheoryforaregenerative-150112171720-conversion-gate02-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Conference Presentation: 2007, Pedersen Zari, M and Storey, J. ‘An Ecosystem Based Biomimetic Theory for a Regenerative Built Environment’, Sustainable Building (SB07) Regional Sustainable Building Conference, Lisbon, Portugal, September 2007. Biomimicry, where flora, fauna or entire ecosystems are emulated as a basis for design, has attracted considerable interest in the fields of architectural design and engineering as an innovative new design approach and importantly as a potential way to shift the built environment to a more sustainable paradigm. The practical application of biomimicry as a design methodology, particularly in the built environment, remains elusive however. This paper seeks to contextualise the various approaches to biomimicry and provides an inte-grated set of principles that could form the basis for an ecosystem based design theory. This would enable practitioners to reach beyond sustainability to a regenerative design practice where the built environment becomes a vital component in the integration with and regeneration of natural ecosystems as the wider human habitat.
An Ecosystem Based Biomimetic Theory for a Regenerative Built Environment from Dr Maibritt Pedersen Zari
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‘Biomimetic Approaches to Architectural Design for Increased Sustainability’, presented at the Sustainable Building (SB07) Regional Sustainable Building Conference, Auckland, New Zealand, November 2007. /slideshow/conference-presentation-auckland-sb07/43445827 presentationaucklandsb073-150112171026-conversion-gate01
Biomimicry, where flora, fauna or entire ecosystems are emulated as a basis for design, is a growing area of research in the fields of architecture and engineering. This is due to both the fact that it is an inspirational source of possible new innovation and because of the potential it offers as a way to create a more sustainable and even regenerative built environment. The widespread and practical application of biomimicry as a design method remains however largely unrealised. A growing body of international research identifies various obstacles to the employment of biomimicry as an architectural design method. One barrier of particular note is the lack of a clear definition of the various approaches to biomimicry that designers can initially employ. Through a comparative literature review, and an examination of existing biomimetic technologies, this paper elaborates on distinct approaches to biomimetic design that have evolved. A framework for understanding the various forms of biomimicry has been developed, and is used to discuss the distinct advantages and disadvantages inherent in each as a design methodology. It is shown that these varied approaches may lead to different outcomes in terms of overall sustainability or regenerative potential. It is posited that a biomimetic approach to architectural design that incorporates an understanding of ecosystems could become a vehicle for creating a built environment that goes beyond simply sustaining current conditions to a restorative practice where the built environment becomes a vital component in the integration with and regeneration of natural ecosystems.]]>

Biomimicry, where flora, fauna or entire ecosystems are emulated as a basis for design, is a growing area of research in the fields of architecture and engineering. This is due to both the fact that it is an inspirational source of possible new innovation and because of the potential it offers as a way to create a more sustainable and even regenerative built environment. The widespread and practical application of biomimicry as a design method remains however largely unrealised. A growing body of international research identifies various obstacles to the employment of biomimicry as an architectural design method. One barrier of particular note is the lack of a clear definition of the various approaches to biomimicry that designers can initially employ. Through a comparative literature review, and an examination of existing biomimetic technologies, this paper elaborates on distinct approaches to biomimetic design that have evolved. A framework for understanding the various forms of biomimicry has been developed, and is used to discuss the distinct advantages and disadvantages inherent in each as a design methodology. It is shown that these varied approaches may lead to different outcomes in terms of overall sustainability or regenerative potential. It is posited that a biomimetic approach to architectural design that incorporates an understanding of ecosystems could become a vehicle for creating a built environment that goes beyond simply sustaining current conditions to a restorative practice where the built environment becomes a vital component in the integration with and regeneration of natural ecosystems.]]>
Mon, 12 Jan 2015 17:10:25 GMT /slideshow/conference-presentation-auckland-sb07/43445827 DrMaibrittPedersenZa@slideshare.net(DrMaibrittPedersenZa) ‘Biomimetic Approaches to Architectural Design for Increased Sustainability’, presented at the Sustainable Building (SB07) Regional Sustainable Building Conference, Auckland, New Zealand, November 2007. DrMaibrittPedersenZa Biomimicry, where flora, fauna or entire ecosystems are emulated as a basis for design, is a growing area of research in the fields of architecture and engineering. This is due to both the fact that it is an inspirational source of possible new innovation and because of the potential it offers as a way to create a more sustainable and even regenerative built environment. The widespread and practical application of biomimicry as a design method remains however largely unrealised. A growing body of international research identifies various obstacles to the employment of biomimicry as an architectural design method. One barrier of particular note is the lack of a clear definition of the various approaches to biomimicry that designers can initially employ. Through a comparative literature review, and an examination of existing biomimetic technologies, this paper elaborates on distinct approaches to biomimetic design that have evolved. A framework for understanding the various forms of biomimicry has been developed, and is used to discuss the distinct advantages and disadvantages inherent in each as a design methodology. It is shown that these varied approaches may lead to different outcomes in terms of overall sustainability or regenerative potential. It is posited that a biomimetic approach to architectural design that incorporates an understanding of ecosystems could become a vehicle for creating a built environment that goes beyond simply sustaining current conditions to a restorative practice where the built environment becomes a vital component in the integration with and regeneration of natural ecosystems. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/presentationaucklandsb073-150112171026-conversion-gate01-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Biomimicry, where flora, fauna or entire ecosystems are emulated as a basis for design, is a growing area of research in the fields of architecture and engineering. This is due to both the fact that it is an inspirational source of possible new innovation and because of the potential it offers as a way to create a more sustainable and even regenerative built environment. The widespread and practical application of biomimicry as a design method remains however largely unrealised. A growing body of international research identifies various obstacles to the employment of biomimicry as an architectural design method. One barrier of particular note is the lack of a clear definition of the various approaches to biomimicry that designers can initially employ. Through a comparative literature review, and an examination of existing biomimetic technologies, this paper elaborates on distinct approaches to biomimetic design that have evolved. A framework for understanding the various forms of biomimicry has been developed, and is used to discuss the distinct advantages and disadvantages inherent in each as a design methodology. It is shown that these varied approaches may lead to different outcomes in terms of overall sustainability or regenerative potential. It is posited that a biomimetic approach to architectural design that incorporates an understanding of ecosystems could become a vehicle for creating a built environment that goes beyond simply sustaining current conditions to a restorative practice where the built environment becomes a vital component in the integration with and regeneration of natural ecosystems.
‘Biomimetic Approaches to Architectural Design for Increased Sustainability’, presented at the Sustainable Building (SB07) Regional Sustainable Building Conference, Auckland, New Zealand, November 2007. from Dr Maibritt Pedersen Zari
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Closed loop materials cycles /slideshow/closed-loop-materials-cycles2/43445682 closedloopmaterialscycles2-150112170416-conversion-gate01
Conference presentation: M. PEDERSEN ZARI. ‘Closed Loop Materials Cycles: Architectural Education to Affect Change’, presentation at the Building Materials Reuse Association (BMRA) Conference on Deconstruction, Building Materials Reuse, and C&D Recycling, Madison, Wisconsin, USA, May 2007.]]>

Conference presentation: M. PEDERSEN ZARI. ‘Closed Loop Materials Cycles: Architectural Education to Affect Change’, presentation at the Building Materials Reuse Association (BMRA) Conference on Deconstruction, Building Materials Reuse, and C&D Recycling, Madison, Wisconsin, USA, May 2007.]]>
Mon, 12 Jan 2015 17:04:16 GMT /slideshow/closed-loop-materials-cycles2/43445682 DrMaibrittPedersenZa@slideshare.net(DrMaibrittPedersenZa) Closed loop materials cycles DrMaibrittPedersenZa Conference presentation: M. PEDERSEN ZARI. ‘Closed Loop Materials Cycles: Architectural Education to Affect Change’, presentation at the Building Materials Reuse Association (BMRA) Conference on Deconstruction, Building Materials Reuse, and C&D Recycling, Madison, Wisconsin, USA, May 2007. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/closedloopmaterialscycles2-150112170416-conversion-gate01-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Conference presentation: M. PEDERSEN ZARI. ‘Closed Loop Materials Cycles: Architectural Education to Affect Change’, presentation at the Building Materials Reuse Association (BMRA) Conference on Deconstruction, Building Materials Reuse, and C&amp;D Recycling, Madison, Wisconsin, USA, May 2007.
Closed loop materials cycles from Dr Maibritt Pedersen Zari
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Biomimetic Approaches to Architectural Design /slideshow/biomimetic-approaches-to-architectural-design/43445508 finalapproachestoarch-150112165620-conversion-gate02
Poster presentation. Pedersen Zari, M, 2007. Biomimetic Approaches to Architectural Design, SBO7 Conference, May 31- June 1, Toronto, Canada.]]>

Poster presentation. Pedersen Zari, M, 2007. Biomimetic Approaches to Architectural Design, SBO7 Conference, May 31- June 1, Toronto, Canada.]]>
Mon, 12 Jan 2015 16:56:20 GMT /slideshow/biomimetic-approaches-to-architectural-design/43445508 DrMaibrittPedersenZa@slideshare.net(DrMaibrittPedersenZa) Biomimetic Approaches to Architectural Design DrMaibrittPedersenZa Poster presentation. Pedersen Zari, M, 2007. Biomimetic Approaches to Architectural Design, SBO7 Conference, May 31- June 1, Toronto, Canada. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/finalapproachestoarch-150112165620-conversion-gate02-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Poster presentation. Pedersen Zari, M, 2007. Biomimetic Approaches to Architectural Design, SBO7 Conference, May 31- June 1, Toronto, Canada.
Biomimetic Approaches to Architectural Design from Dr Maibritt Pedersen Zari
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https://cdn.slidesharecdn.com/profile-photo-DrMaibrittPedersenZa-48x48.jpg?cb=1523440944 Selected Publications: Journal Articles: 2015, Pedersen Zari, M. ‘Ecosystem Services Analysis in Response to Biodiversity Loss Caused by the Built Environment’. Sapiens Journal. Vol. 7, No. 1. 2014, Pedersen Zari, M. ‘Ecosystem processes for biomimetic architectural design’ Architectural Science Review (ASR). Published online 7/11/14. 2012, Pedersen Zari, M. ‘Ecosystem services analysis for the design of regenerative built environments’. Building Research and Information (BRI), Vol. 40, No. 1, Pages 54-64. 2010, Pedersen Zari, M. ‘Biomimetic design for climate change adaptation and mitigation’. Architectural Science Review (ASR), vol. 53, no. 2. Pages 172-183. Book Chapt www.mpedersen.webs.com https://cdn.slidesharecdn.com/ss_thumbnails/gettingyourselfouttherepublic-150202155350-conversion-gate02-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/how-to-get-people-to-see-your-research-and-build-a-following-for-architecture-and-creative-academics/44179526 How to get people to s... https://cdn.slidesharecdn.com/ss_thumbnails/finalpresentation2-150112172501-conversion-gate01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/final-presentation2-43446163/43446163 An architectural love ... https://cdn.slidesharecdn.com/ss_thumbnails/anecosystembasedbiomimetictheoryforaregenerative-150112171720-conversion-gate02-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/an-ecosystem-based-biomimetic-theory-for-a-regenerative/43445978 An Ecosystem Based Bio...