The Master Programme in Robotics and Advanced Construction is an innovative educational format that offers interdisciplinary skills and understanding through a series of class seminars that are put into practice through hands-on workshops. IAAC gives students the opportunity to create individual studio agendas and develop Pilot Thesis Projects based on the knowledge acquired during the seminars and workshops split into 3 Modules. In this way, IAAC puts together an experimental learning environment for the training of professionals with both theoretical and practical responses to the increasing complexity of the construction sector.

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Natural Terracotta Air Conditioners – NTAC

Pathways to decarbonization or the dissolution of our illusions. In the midst of a scorching summer, a weary homeowner welcomed the arrival of a shiny new air conditioner, seeking respite from the oppressive heat. Grateful for the cool breeze that soon filled the living room, they savored the relief it brought. However, unbeknownst to them, … Read more

Data_visualization

CONTEXT Consequences of carbon emission Building operations are responsible for approximately 27% annually, while the embodied carbon of just four building and infrastructure materials – cement, iron, steel, and aluminum – are responsible for an additional 15% annually EuropeanClimateLaw The European Climate Law writes into law the goal set out in the European Green Deal for Europe’s economy and society to become climate-neutral by 2050. The law also sets the intermediate target of reducing net greenhouse gas emissions by at least 55% by 2030, compared to 1990 levels. Climate neutrality by 2050 means achieving net zero greenhouse gas emissions for EU countries as a whole, mainly by cutting emissions, investing in green technologies and protecting … Read more

Reclaim Rover

The integration of a rover or swarm of rovers into construction demolition sites represents a paradigm shift in waste management practices. Equipped with advanced sensors and AI algorithms, this rover possesses the capability to accurately identify and segregate valuable materials such as steel and metal amidst debris and rubble. These rovers operate seamlessly alongside human … Read more

Mycelium in Construction for Catalonia

Throughout this blog we will highlight each section and we hope to inspire others like the way we have been inspired. We will present a progressive material, then show how we get this material integrated into the construction world. Proposition “ We propose that the usage of Mycelium should be legalised in the Code for … Read more

Circularity on the blockchain

The construction sector is responsible for more than 35% of the waste generated in the European Union. At the same time, the materials and products used in this sector can have a life span of several decades. In the long term, having data on the origin of each material would be ideal to promote its … Read more

A Proposal for Sustainable Foundation Systems

This hypothetical study aims to reduce CO2 emissions in the construction sector by incorporating cutting-edge technologies during the foundational stage. Our focus is on ensuring 100% renewable energy usage and optimizing energy consumption. Our focus Addressing all foundation types and their associated components and processes would be too broad for us to effectively handle. To … Read more

Between Coral Reefs, Rovers and Foundation Systems

In this proposal, our objective is to explore the synergies and interconnectedness of various systems. Specifically, we have grouped together to investigate how coral reef restoration techniques, autonomous rovers, and sustainable foundation systems can collaborate to develop compelling decarbonization proposals. Reef Platform + Rover Submersive Rovers to detect fishing nets and remove it in Punta … Read more

Framework for Coral Reef Restoration

Coral reefs play a pivotal role in the ocean’s capacity to sequester carbon dioxide, acting as natural carbon sinks. Through the process of calcification, corals convert carbon dioxide from the water into limestone (calcium carbonate) structures, which comprise the coral skeleton. This not only helps in reducing the amount of CO2 in the ocean but … Read more