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.
In today’s architectural landscape, digital fabrication has significantly expanded the way we design and construct building elements—offering unprecedented accuracy, efficiency, and formal freedom. Techniques such as laser cutting, CNC milling, 3D printing, and robotic manufacturing each bring distinct advantages in terms of material behavior, geometric complexity, and performance potential. RE:CELL Concept The Re:Cell is a … Read more
Our digital fabrication journey unfolds through four experiments that explore how material, geometry, and technology negotiate form. Each project challenges a different fabrication technique: laser cutting, CNC milling, 3D printing, and robotic manufacturing, while asking a deeper question: How does digital logic reshape the language of craft? Laser Cutting Tessellated Lightfield This project explores the … Read more
Digital fabrication enables designers to explore geometries that go beyond traditional construction constraints. The exercise focuses on translating complex geometries into constructible systems that integrate material behaviour, joinery logic, and mass customisation. Each technique allows experimentation with unique fabrication constraints, informing the evolution of the vertical element design. The outputs serve as material and geometric … Read more
THE W-E SERIES WALL-E 3D PRINTING DESIGN INSPIRATION OBJECTIVE To create a modular vertical element that explores the capabilities of 3D printing and is simultaneously architecturally attractive, is structurally strong whilst using minimal material. DESIGN OPTIONS FINAL DESIGN CONCEPT By blending elements from previous prototypes, the final piece combines 2D and 3D forms to exploit … Read more
Vertical elements shape how we experience architecture-defining boundaries, filtering light, and giving character to both interiors and facades. In this exercise, we explored their potential through hands-on digital fabrication, rotating between 3D printing, laser cutting, CNC milling, and robotic manufacturing. Working within a fixed wooden framework, each technique challenged us to rethink material behavior, structural … Read more
3D Printing | Kinetic Facade | CONCEPT | The project draws its primary inspiration from the dynamic, sun-responsive mashrabiya system of the Al Bahr Towers in Abu Dhabi. What captivated me was the sharp visual contrast between conventional, static façade geometries often rectilinear or triangulated and the refined kinetic intelligence embedded in these triangular adaptive … Read more
Introduction This project explores a double landscape approach, bridging a student accommodation in the city with an ecological extraction site in the Collserola foothills. It establishes a material and climatic dialogue between the two contexts: one as a site of inhabitation, the other as a site of making. At its core is a breathing terracotta … Read more
Vernacular architecture has steadily lost relevance in contemporary practice. Industrialized construction methods, aesthetic shifts, and the pursuit of perceived reliability in materials like concrete and steel have overshadowed traditional techniques. However, these modern materials often come at a high environmental cost. Among the overlooked methods is quincha, a construction technique common in Latin America. It … Read more
Project by Saad Khan , Sai Mohan Satwik and Baran Koc INTRODUCTION Our group was assigned to study the TMDC building, focusing on its material composition, spatial qualities, and potential for on-site material reuse. The goal is to explore how the existing structure can become a source for recycled construction materials, which we would then … Read more
This Project explores how reflective, vernacular materials—such as ceramics—can be utilized in construction to manage infrared radiation and influence microclimates. By reflecting rather than absorbing heat, these materials contribute to passive cooling, reducing urban heat island effects and enhancing thermal comfort. We analyze the physical properties of ceramics, their historical applications in traditional architecture, and … Read more
KINXA aims to bring vernacular construction back into contemporary architecture by systemizing traditional “quincha”. At the same time, through a redesigned material system, KINXA seeks to take advantage of local resources and lower even more its precedent carbon footprint. Quincha is a technique prevalent in Latin America which consists of the use of a wood … Read more
Drawing inspiration from the Central American term “colocho” meaning curl or loop, we developed a robotic printed clay column, while experimenting with non-uniform extrusions. In this seminar we explored the geometric possibilities that can be created with the incorporation of non-uniform rotations and movements in the robot while printing with clay. At the same time, … Read more
Before creating a whole facade on four faces of a building, we experimented on one wall, parameterizing only the Mesh Vertex Offsets and Perforation Sizes
(I) Vaporization of water (2)Thermal inertia ELECTRONIC FOUNDATION. MAKE ENERGY VISIBLE MAKE ENERGY FLOW. CONTROL THE EXTREMES MATTER MATTERS Scalability Thermal inertia Phase shift Dampening ROOM 1 ROOM 2 THE PROCESS
