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Today, we are facing a change in paradigm in the field of Architecture. Information Era Technologies and their impacts on architecture are drastically changing, and their relationship calls for new or adapted concepts, where physical space seamlessly intertwines with digital content, and where the language of electronic connections tie in with that of physical connections.

We are consequently moving towards a different form of “habitats”, where architecture is not merely inhabited, but becomes technologically integrated, interactive and evolutional. If computers were once the size of buildings, buildings are now becoming computers, both performative, on I/O Communication protocols, and programmable, at material-molecule nanoscale, or even operational thanks to self-learning genetic algorithms.

The methodology of Intelligent Constructions is based on two main paths.

On one hand, Intelligent constructions tackles questions regarding Material Intelligence. Smart materials such as shape-memory materials, piezoelectric, thermoelectric or bio-materials able to adjust their properties to different environmental conditions, allow to programme buildings at a nanoscale, and open up a series of applications on an architectural scale and industrial applications. Furthermore, new composite materials that present preset combinations of mechanical properties or multi-functional properties of non-homogeneous materials in shape and composition across a wide range of scales bring forth the exploration of a shift in design culture, taking us to a new level of material awareness. Material Intelligence in combination with Artificial and Computational Intelligence, simulations, sensors, actuators, as well as with bio-mimetic innovations provide revolutionary ideas on growth, adaptability, repair, sensitivity, replication and energy savings in architecture.

Should we continue constructing rigid and fixed structures?

Or can buildings begin to think?

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This brings us to the second path investigated through Intelligent Constructions, that of Digital Fabrication. In design, architecture and many other disciplines, Computer Numerically Controlled (CNC) fabrication equipment has given designers unprecedented means for executing formally challenging projects directly from the computer. Digital fabrication gives us the potential and the ability to design and fabricate building components with varied properties of density, translucency, elasticity and much more. Though, until now, Digital Fabrication tools are used by the designers to materialize their design by accessing materials as a library of consistent and physically homogeneous properties.

The Intelligent Constructions research line wishes to explore how Digital Fabrication goes beyond assigning material properties into rigid construction components. The group works with digital content, information and fabrication for the generation of new techniques generating the production of non-rigid, responsive and multi-functional material and construction systems. Hence generating an architecture that is not just mimicking the living but is roaring into life.

The method of investigation follows a rigorously experimental approach and progresses in complexity from small scale material sampling to the production of 1:1 scale architectural components and prototypes.

moritz begle otf

Partner Institution:

CITA- Center for Information,

Technology and Architecture

in Copenhagen

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Studio Director: Areti Markopoulou
Faculty Assistant: Alexandre Dubor
Assistant: Moritz Begle
Theory Support Seminar: Dennis Dollens

in collaboration with CITA:
Studio Director: Mette Ramsgard Thomsen
Tutors: David Stasiuk, Phil Ayres
Workshop Seminar: Martin Tamke, Christoph

Areti Markopoulou: Architect graduated from the Department of Architectural Engineering of Xanthi, DUTH (2005) in Greece. She holds a Masters in Advanced Architecture from IAAC (2006) with a related thesis in the field of ¨Prototypes of Urbanity: from Bits to Geography¨. She has also studied at the Architectural Association, AA in London (Dlab 2009) and she holds a Fab Academy diploma on Digital Fabrication (2011) offered by the MIT Center for Bits and Atoms. Her research explores how Energy, Information and Fabrication could lead to optimum future city models, where technology and users play a protagonist role in the production of more efficient and responsive habitats that could adapt to our behavioral changes over time. She has participated in IAAC research projects such as ¨Hyperhabitat_ Reprogramming the World¨at the Venice Biennale (2008),¨Fab Lab House¨in the Solar Decathlon Europe 2010 and ¨Fabrication Laboratory¨ in the Design Hub of Barcelona (DHUB). She is permanent faculty at IAAC and has published articles internationally. Her practice includes collaborations with several offices and firms such as R+B architects, BOPBAA, MMA Architects, Azymuth, BR and more. She is currently the Director of R+D at IAAC in Barcelona and initiator of Fab Lab Greece.

Alexandre Dubor : From web platform to 6axis Robot, Alexandre Dubor is an architect hacking new technologies in an attempt to reinvent how we buil and leave in our cities. He recently joined the academic field as teacher and lecturer in different school (Iaac / FabLab Barcelona, TU Delft, TU Vienna and UTS), while working on various research including Magnetic Architecture and Smart Citizen.

Moritz Begle: Architect graduated from the IAAC, with a related thesis in the field of “Self-sufficient Buildings“. After graduating from the University of Liechtenstein with a Bachelor Degree in Architecture he has been working for Früh Architects ZT GmbH (Austria) and Hornberger Architects AG (Switzerland), where he was mainly involved in design for housing and creating concepts for public building complexes. At IAAC he was part of the vision “Smartblock 2020”, his master thesis “The Jungle” which has been awarded with the Innovative Energy Award, the OTF Program 2013 and is currently participating the Fab Academy 2014.

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The materiability research network is a community platform, an educational network and an open materials database. It was initiated by Manuel Kretzer in 2012 and emerged from a joint initiative between the Chair for Computer Aided Architectural Design, ETH Zürich and Interaction Design, Zürich University of the Arts.

 Material World by 3XN Architects

Institute of Making – UCL

Self-Assembly Lab - a cross disciplinary research lab at MIT inventing self assembly and programmable material technologies aimed at reimagining construction manufacturing product assembly and performance.

Materials Project – By computing properties of all known materials, the Materials Project aims to remove guesswork from materials design in a variety of applications. By providing materials researchers with the information they need to design better, the Materials Project aims to accelerate innovation in materials research.

CITA- Center for Information Technology and Architecture

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