IAAC - Institute for advanced architecture of Catalonia - Barcelona

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Master in Advanced Architecture

IaaC offers a one year and a two year Master program in Architecture and Urbanism as well as a four month postgraduate program, all accredited by the Universidad Politècnica de Catalunya (UPC).

MAA01 (1 year, 75 ECTS)   MAA02 (2 years, 130 ECTS)

The programs are oriented at graduates who wish to commit and develop their design research skills in the context of new forms of practice within architecture and urbanism, ranging from large-scale environments to tectonic details and material properties.

In order to allow the highest quality and applied research, the Masters in Advanced Architecture proposes a multidisciplinary approach, considering architecture as a transversal field, for which it is imperative to integrate all research and applications with the knowledge of specialists form a diversity of fields of expertise.

Over the last ten years, IaaC has received and been home to over 500 students from more than 60 countries, including China, the UK, the USA, Australia, the Dominican Republic, Mexico, Argentina, Brasil, Puerto Rico, Ecuador, Peru, Germany, Iran, Thailand, Russia, Turkey, India, Poland, Cyprus, Portugal, Italy, Greece, Spain, Guatemala, Bangladesh, Colombia, Korea and more making it an exceptionally international and multicultural place.

The Master in Advanced Architecture Program emerges as an Innovative Structure focusing on five select Research Lines all led by Internationally renowned experts, and bringing together students and faculty from different disciplines and origins, towards the creation of a Networked Hub dedicated to Research and Innovation for the habitability of the 21st Century.

MULTISCALAR STRATEGY

INTELLIGENT CITIES
SELF SUFFICIENT BUILDINGS
DIGITAL MATTER
DESIGN WITH NATURE
ADVANCED INTERACTION

The Advanced Architecture Agenda establishes the responsibility to confront the process of global urbanization from a multi-scalar and operational perspective, as well as through the development of prototypes that promote environmental, economic and social sustainability. In the early 20th century, the concept of ‘dwelling’ was defined as a ‘machine for living’, a reference to a new way of understanding the construction of inhabitable spaces that characterized the Machine Age. Today, a century later, we face the challenge of constructing sustainable or even self-sufficient prototypes; living organisms that interact and interchange resources with their environment, and that function as entirely self-sufficient entities, as trees do in a field. In this way, each action in the territory implies a manipulation of multiple environmental forces, connec- ted with numerous flows and networks such as energy, transport, logistics and information, generating new inhabitable and responsive nodes with the potential to use and produce resources. Territorial and urban strategies as well as building operations therefore call to be coordina- ted processes that extend architectural knowledge to new forms of management and planning, in which multiscalar thinking also entails an understanding of shifting dynamics, energy and information transmission, as well as continuous adaptation.

Architecture is always facing the responsi- bility of responding to emergent needs, technologies and ever-changing programs. We must ask more of architecture: we as architects should be required to design inhabitable organisms that are capable of developing functions and integrating the processes of the natural world that formerly took place at a distance, in other points of the surrounding territory. The models created for the metropolis of the last century are unable to accommodate new developments linked to contemporary urban lifestyles, which ever more discontinuous in space and time. The building-over of the global landscape requires us to project at the same time the full and the empty, the natural and the artificial, in such a way as to make economic impetus compatible with sustainable development. It is necessary to generate complex knowledge linked to a multi-layered reading of realities that have traditionally been thought of as separate, such as energy manipulation, nature, urban mobility, dwellings, systems of production and fabrication, the development of software, information networks, etc. This opens up the possibility of generating new prototypes, capable of engaging with complex and changing environments. Finally, every new urban or architectural production needs to update its materiality and reinterpret construction techniques of the past centuries, which are very directly based on the transformation of locally available materials. It is now time for interaction between disciplines and technologies to engage in a vision that embraces different fields of research.