p. 598-610The research will demonstrate new strategies and concepts for building envelopes based on natural systems. Smart structures and adaptive systems are standard in nature and could be the key to the next step in the evolution of intelligent building skins for architecture. The translation of abstracted nature in mathematical terms and the application of prerequisite architectural considerations are the fundamental concepts of bio-inspired structures, materials and systems in engineering. Nature typically uses not additive, but highly integrated systems, which optimize several necessary features in one component. Energy acquired by photosynthesis or heterotrophic processes has to be diverted between growth and reproduction, and p...
Bio-based materials are considered a promising resource for buildings in the twenty-first century du...
Since the industrial revolution, the human world has been dominated by eco-systemically unintegrated...
This study explores the application of biomimicry and adaptation lessons from biology in the design ...
There is growing interest in scientific literature and in research projects on climate...
Systems found in nature are a valuable source of inspiration for several applications. Scientists an...
The building envelope has an important role in regulating the energy exchanges between the internal ...
How do living organisms capture, convert, store and process energy, water and sunlight? How does nat...
The building envelope is undergoing change. We still expect it to provide thermal, light and visual ...
© 2017 Elsevier Ltd This paper provides an overview of the design of biomimetic building skins. Many...
The building envelope has an important role in regulating the energy exchanges between the internal ...
The realisation that much of conventional. modern architecture is not sustainable over the long term...
This paper provides an overview of the design of biomimetic building skins. Many types of smart and ...
Living envelopes, such as biological skins and structures built by animals, are functional and susta...
How can architecture respond to sustainability issues where buildings will behave in built environme...
The adaptive capacity in creating intelligent glass surfaces will be investigated using the principl...
Bio-based materials are considered a promising resource for buildings in the twenty-first century du...
Since the industrial revolution, the human world has been dominated by eco-systemically unintegrated...
This study explores the application of biomimicry and adaptation lessons from biology in the design ...
There is growing interest in scientific literature and in research projects on climate...
Systems found in nature are a valuable source of inspiration for several applications. Scientists an...
The building envelope has an important role in regulating the energy exchanges between the internal ...
How do living organisms capture, convert, store and process energy, water and sunlight? How does nat...
The building envelope is undergoing change. We still expect it to provide thermal, light and visual ...
© 2017 Elsevier Ltd This paper provides an overview of the design of biomimetic building skins. Many...
The building envelope has an important role in regulating the energy exchanges between the internal ...
The realisation that much of conventional. modern architecture is not sustainable over the long term...
This paper provides an overview of the design of biomimetic building skins. Many types of smart and ...
Living envelopes, such as biological skins and structures built by animals, are functional and susta...
How can architecture respond to sustainability issues where buildings will behave in built environme...
The adaptive capacity in creating intelligent glass surfaces will be investigated using the principl...
Bio-based materials are considered a promising resource for buildings in the twenty-first century du...
Since the industrial revolution, the human world has been dominated by eco-systemically unintegrated...
This study explores the application of biomimicry and adaptation lessons from biology in the design ...