Within the current global context of rapid change, integrated with the potentials of digital technologies, IAAC’s Master in Advanced Architecture (MAA) is committed to the generation of new ideas and applications for Urban Design, Self Sufficiency, Digital Manufacturing Techniques and Advanced Interaction.

In this context IAAC works with a multidisciplinary approach, facing the challenges posed by our environment and the future development of cities, architecture and buildings, through a virtuous combination of technology, biology, computational design, digital and robotic fabrication, pushing innovation beyond the boundaries of a more traditional architectural approach.

Filters

TREE WISE

TIMBER SENSING TECHNOLOGY A material system combining timber and graphene, replacing traditional sensors through graphene’s sensing capabilities. This innovative approach allows first, real-time tracking of deformations inside the wood. Second, creating a digital twin that improves maintenance efficiency in the operational phase. Third, providing a detailed service life passport, this system supports reuse and reduces … Read more

Decharbonization

From exterior soil remediation to interior acoustics enhancement The goal of this project is to create a non-cementitious geopolymer, using as the main component biochar, an worldwide abundant material, and amplify its qualities to sequester carbon in order to make carbon sink architecture. Through the process of material engineering and testing, it was possible to … Read more

A FISHERMAN’S TALE 渔夫的故事

Harmonising Coastal Futures, Restoring Balance in China’s Maritime , A Speculation of Communal Synergy in the context of Houtouwan THE PROBLEM // RESOURCE EXPLOITATION | OVER FISHING China’s over fishing crisis looms large, statistics revealing a stark reality of declining marine resources. With the majority of the worlds fishing resources coming from China, the country has … Read more

CORK.CATENATION

Non planar 3D printing cork based biomaterial CORK.CATENATION employs the novel methodology of non-planar 3d printing using Cork as the bio-material. The final outcome is a connection of interconnected lattice structures- broken down into modules that can be assembled to form a building skin that can morph according to the surface topology and solar radiation results.