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Burney, D and Claflin, A (2016) Practical considerations for implementing research on the indoor built environment. Building Research & Information, 44(03), 342-4.

Cartwright, N (2016) Scientific models versus social reality. Building Research & Information, 44(03), 334-7.

Forcada, N, Macarulla, M, Gangolells, M and Casals, M (2016) Handover defects: Comparison of construction and post-handover housing defects. Building Research & Information, 44(03), 279-88.

Garcia-Holguera, M, Clark, O G, Sprecher, A and Gaskin, S (2016) Ecosystem biomimetics for resource use optimization in buildings. Building Research & Information, 44(03), 263-78.

• Type: Journal Article
• Keywords: systems thinking; sustainable design; design process; ecomimetics; ecological design; biomimicry; biomimetics; architecture; ecosystems; optimization
• ISBN/ISSN: 0961-3218
• URL: https://doi.org/10.1080/09613218.2015.1052315
• Abstract:
    An ecomimetic method is developed as an innovative and transdisciplinary design approach rooted in the field of biomimetics. This new method emulates the interrelated complexity of the parts of an ecosystem with the intent to design buildings that are more efficient, effective and holistic. Ecomimetics refers to the design of buildings that mimic ecosystem processes and functions. This approach provides potential opportunities for climate change adaptation and mitigation by optimizing the use of resources in buildings. One challenge to the application of ecomimetics in architecture is the lack of systematic methods supported by scientific research, which may prevent development in this field. A theoretical basis and the initial development of an ecomimetic design method is presented, with a description of each step of the design process. Ecological systems are selected for functional properties that match architectural design goals, and then design tools are used to abstract and transfer those properties to architectural systems. The design tools integrated in the method are from the fields of ecological engineering, systems dynamics and architecture. The case of the Eastgate Center in Harare, Zimbabwe, is used to illustrate the method.;An ecomimetic method is developed as an innovative and transdisciplinary design approach rooted in the field of biomimetics. This new method emulates the interrelated complexity of the parts of an ecosystem with the intent to design buildings that are more efficient, effective and holistic. Ecomimetics refers to the design of buildings that mimic ecosystem processes and functions. This approach provides potential opportunities for climate change adaptation and mitigation by optimizing the use of resources in buildings. One challenge to the application of ecomimetics in architecture is the lack of systematic methods supported by scientific research, which may prevent development in this field. A theoretical basis and the initial development of an ecomimetic design method is presented, with a description of each step of the design process. Ecological systems are selected for functional properties that match architectural design goals, and then design tools are used to abstract and transfer those properties to architectural systems. The design tools integrated in the method are from the fields of ecological engineering, systems dynamics and architecture. The case of the Eastgate Center in Harare, Zimbabwe, is used to illustrate the method.;

Goh, B H and Sun, Y (2016) The development of life-cycle costing for buildings. Building Research & Information, 44(03), 319-33.

Kaasalainen, T and Huuhka, S (2016) Homogenous homes of Finland: 'Standard' flats in non-standardized blocks. Building Research & Information, 44(03), 229-47.

Lucke, T, Beecham, S and Qu, Y Y (2016) Estimating flow rates through individual outlets of siphonic roof drainage systems. Building Research & Information, 44(03), 289-300.

Müller, B (2016) Policy gaps: Future challenges for research. Building Research & Information, 44(03), 338-41.

Parkinson, T and de Dear, R (2016) Thermal pleasure in built environments: Spatial alliesthesia from contact heating. Building Research & Information, 44(03), 248-62.

Silva, A, Neves, L C, Gaspar, P L and de Brito, J (2016) Probabilistic transition of condition: Render facades. Building Research & Information, 44(03), 301-18.