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.
– Reimagining the Northern Green Corridor of Lisbon – Location The project site in Lisbon is strategically located within a dynamic urban fabric characterized by a mix of historic layers and contemporary development. Positioned between key mobility corridors and densely populated neighborhoods, the area experiences a high level of pedestrian and vehicular activity throughout the … Read more
This project introduces a high-performance terrace pavilion that merges environmental data with advanced robotic fabrication. The design process began with a comprehensive solar and circulation analysis, identifying thermal hotspots and vantage points to determine the optimal balance between shaded gathering areas and open viewing corners. The resulting structure features a complex, interlocking timber geometry that … Read more
Project Brief Forces of Nature explores how architectural form can emerge from the interaction of natural forces rather than being predefined. Using computational simulations, the project allows tension, gravity, and equilibrium to shape spatial structures. The installation translates invisible physical behaviors into visible design, creating a form that is discovered through force-driven processes and realized … Read more
This project explores the computational assembly of components to form a multi-functional complex. By translating configurations into graphs, we applied Space Syntax logic to evaluate three key values : Depth, Integration, and Choice. The optimal architecture was selected based on the balanced symmetry of these indices. Finally, these analytical values directly guided the spatial programming, … Read more
THE GREAT HIMALAYAN TERRAINKinnaur lies in the Middle to Higher Himalayas, one of India’s most landslide-prone regions, while also functioning as a critical ecological transition zone between temperate, sub-alpine, and cold desert ecosystems. The Sutlej valley acts as both a human infrastructure corridor and a biological movement corridor. News reports show … Read more
Design Ethos This project seeks to explore how issues of stagnation and obsolescence can be tackled whilst still enabling socio-economic and technological developments of our urban spaces. It will explore how they can be applied within architecture to evaluate how we can more effectively address issues of erasure whilst still permitting modern interventions and advancements … Read more
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
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
Architecture is entering a moment where the boundaries between design, technology, and material production are dissolving. As cities demand faster construction, customized spaces, and environmentally intelligent solutions, traditional methods alone no longer match the pace or precision required. Digital fabrication has emerged not just as a complementary tool, but as a transformative force reshaping how … Read more
This term’s digital fabrication explorations investigated the expressive and technical potential of multiple fabrication methods laser cutting, CNC milling, robotic clay extrusion, and 3D printing. While each technique demanded a different workflow and material logic, a common thread emerged: the use of material duality to create depth, contrast, and spatial effect. By combining two materials … Read more
Introduction to Digital Fabrication Team : Sejin Park & Hasan Hirji CNC Milling During the CNC Milling process, RhinoCAM software automatically creates bridges; a necessary milling process outside of commands that one might use to manipulate material. We began with the idea of testing the frequency and depth of 2-axis bridging path movement presets to … Read more
Introduction to Digital Fabrication In contemporary architectural practice, digital fabrication has opened new possibilities for designing and producing building components with precision, efficiency, and expressive complexity. Among the most widely used methods—laser cutting, CNC milling, 3D printing, and robotic fabrication, each offers unique material, geometric, and performative potentials. For this assignment, we explore these techniques … Read more
The Digital Fabrication Collection showcases four prototypes developed through distinct making techniques. Each project explores how form, material, and geometry respond to CNC milling, laser cutting, 3D printing, and robotic fabrication, highlighting the diverse possibilities of digitally driven design. Light Lattice The Light Lattice project explores how laser cutting can translate digital geometry into tangible … 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
Hasan Hirji The Light Reactive Aperture Device – LRAD facade system uses light to control two motorized arms, extending and contracting a taut wire frame. This prototype could offer a number of scalable and modular uses. One of these for instance could be creating a light reactive, repeating facade system that expands light shades when … Read more
