The goal of this research is to develop technological and "smart" complex building skin systems, particularly façades, through the development of “emerging technologies”1 and of a reputable multidisciplinary approach. The awareness that innovation in architecture, but also generally in science, is essential to provide concrete answers to issues of general interest, such as energy resources consumption and the obsolescence of construction systems that have been used so far, makes research fundamental and priority. It is necessary that architecture becomes adjustable to the environment ,like living organisms, through a new multi-disciplinary approach: studying not only the morphology but investigating also the generative process starting from...
Building envelopes – the interface between the occupier of a building and the individual climatic co...
This study explores the application of biomimicry and adaptation lessons from biology in the design ...
Most designers of dynamic building skins that reconfigure themselves in changing conditions have uti...
The goal of this research is to develop technological and "smart" complex building skin systems, par...
The goal of the research program is to study technological and "smart" complex systems through the d...
This paper assumes the façade as an innovative element of interaction between the inside and the out...
The aim of this chapter is to shed light on the potentialities of smart material systems in architec...
© 2017 Elsevier Ltd This paper provides an overview of the design of biomimetic building skins. Many...
This paper provides an overview of the design of biomimetic building skins. Many types of smart and ...
p. 2430-2438Various design drivers influence the architectural engineering design process, such as ...
To reduce the energy consumption of buildings and limit their impact on the environment, greater att...
p. 598-610The research will demonstrate new strategies and concepts for building envelopes based on ...
Morphogenomics, a relatively new research area, involves understanding the role played by informatio...
The extended abstract defines the state-of-the-art of innovative materials for the building envelop...
The Smart Skin Envelope research analyses the recent revolution that has taken place in the sector o...
Building envelopes – the interface between the occupier of a building and the individual climatic co...
This study explores the application of biomimicry and adaptation lessons from biology in the design ...
Most designers of dynamic building skins that reconfigure themselves in changing conditions have uti...
The goal of this research is to develop technological and "smart" complex building skin systems, par...
The goal of the research program is to study technological and "smart" complex systems through the d...
This paper assumes the façade as an innovative element of interaction between the inside and the out...
The aim of this chapter is to shed light on the potentialities of smart material systems in architec...
© 2017 Elsevier Ltd This paper provides an overview of the design of biomimetic building skins. Many...
This paper provides an overview of the design of biomimetic building skins. Many types of smart and ...
p. 2430-2438Various design drivers influence the architectural engineering design process, such as ...
To reduce the energy consumption of buildings and limit their impact on the environment, greater att...
p. 598-610The research will demonstrate new strategies and concepts for building envelopes based on ...
Morphogenomics, a relatively new research area, involves understanding the role played by informatio...
The extended abstract defines the state-of-the-art of innovative materials for the building envelop...
The Smart Skin Envelope research analyses the recent revolution that has taken place in the sector o...
Building envelopes – the interface between the occupier of a building and the individual climatic co...
This study explores the application of biomimicry and adaptation lessons from biology in the design ...
Most designers of dynamic building skins that reconfigure themselves in changing conditions have uti...