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.

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AURORA BOREALIS // NORTHERN LIGHTS – A STIMULI

The project aims to simlulate & understand the behaviour behind the Northern Lights – Aurora Borealis. It is an attempt to explore magnetic fields within a domain of charges, strength & decay. The project develops further into simulating the phenomena via means of particle behavior in the Earth’s Atmosphere, dissipating a gradient of colors as … Read more

Spider Web Spinning

The Spider Web Spinning Project seeks to digitally replicate the intricate process of spider web construction. By delving deep into the anatomy, behavior, and environmental conditions influencing web formation, this project aims to unravel the secrets behind nature’s engineering marvel. Spider web formation, known as “web spinning,” is a remarkable feat of engineering mastered by … Read more

MYCELIUM NETWORKS

Abstract Computational Approach to Understanding Growth of Mycelium INTRODUCTION LIFE PROCESS UNDERSTANDING GROWTH UNDERSTANDING PARAMETERS OF INFLUENCE DECONSTRUCTING THE PHENOMENON SINGLE BRANCHING SYSTEM – APPROACH 01 PERFORMANCE SINGLE BRANCHING SYSTEM _SHORTEST WALK Within an environment mimicking soil conditions, the organism’s spore point discerns optimal targets such as moisture, nutrients, light, and temperature.  Through this sensory … Read more

Tensile Structure

Reproduce parametrically Nature’s Behaviors Introduction This project delves into the parametric design of tensile structures, inspired by nature’s efficiency and adaptability. Through Grasshopper, we investigate factors like load, scale, segment count, multiplication, perforations, and vertical member adjustability to optimize tensile structures’ performance. We simulate structures under various loads and considering gravity. By fine-tuning parameters, such … Read more

Golden Gusts

What is the Golden Ratio? The Golden Ratio is a relationship between two numbers that are next to each other in the Fibonacci sequence. When you divide the larger one by the smaller one, the answer is something close to Phi. The further you go along the Fibonacci Sequence, the closer the answers get to … Read more

CORAL ECOSYSTEM

circulatory system Chemical Equation Flow & Diffusion(Peclet number formula) Flow Simulation Coral Section Diffusion Simulation Growth Monitor wave Simulation Influence of Waves others Influence factors(Next step) The survival of corals is currently influenced and challenged by various factors, leading to the gradual disappearance of this ancient ecosystem. In order to simulate both favorable and adverse … Read more

Simulating the hurricane movement following the Fibonacci Spiral Script – Exploration for 2D Animation Anemone Loop Animation Final Video with Animations

Computational Design II – Molecular Crystallization

This project is about the intricacies and process induced intelligence int the natural phenomenon of crystallization. Namely on the molecular level. This project explores the nature and structure of crystal lattices and how the number of bonds and the allowance of joining planes influences the overall molecular structure. Iterative Bonding- X OR Y Plane – … Read more

CELL DIVISION

Pluripotent (‘capable of multiple tasks‘) stem cells are cells that can divide indefinitely.  These cell layers are the fundamental tissues that give rise to all the different types of cells and tissues found in the adult organism.  Given this property, stem cells are potentially able to recreate any tissue or organ found in the body.  … Read more

Mushroom Growth

computational design Natural phenomenon How mushrooms can growth? Spore Germination: It starts with a mushroom spore, which is like a tiny seed. When conditions are right (usually with moisture, warmth, and a suitable substrate), the spore germinates. Mycelium Formation: From the germinated spore, tiny threads called hyphae emerge. These hyphae grow and branch out, forming … Read more

Topology of Trabecular

Computational Design Research Subject  What is trabeculae? from Latin for ‘small beam’ Also called cancellous bone, is porous bone composed of trabeculated bone tissue. It can be found at the ends of long bones like the femur, where the bone is actually not solid but is full of holes connected by thin rods and plates … Read more

BentArc

BentArc is a project crafted during the first term of the Digital Woodcraft Seminar. The site is at the Vallvidrera reservoir, situated on the outskirts of Barcelona. It was designed in 1865 for a hydraulic project that was carried out to bring drinking water to the old town of Sarrià. Today it is no longer used to supply water … Read more

The Rooftop Playground

A Place to enjoy the sun, play, hide and chill The Rooftop Playground proposes, as the name suggests, a leisure (playground) space on the given rooftop of IAAC building. This attempt is derived from the current lack of character, the needs in alternating qualities of spaces (privacy, light, etc.), as well as the need of … Read more

Lineage

SITE FORM INSPIRATION CONCEPT The project focuses on devising fabrication protocols for on-site assembly. Through computational tools and algorithms, we  engage in a holistic design process, from initial concept to realization, fostering innovation in dynamic architectural forms. The research emphasizes visualizing form-finding processes, fabrication protocols, and assembly logic through diagrams and animations FORM FINDING “Project … Read more