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.
Wave Harmony This project, developed in Grasshopper for computational design exploration, is a conceptual model showcasing dynamic forms through vertical fins that mimic movement and fluidity. The design creates a rhythmic interplay of light and shadow across the façade, balancing transparency and opacity. The cascading ribbon-like entrance enhances the visual and spatial experience, transforming the … Read more
Pseudo script This project involves creating a hexagonal grid-based parametric structure using Grasshopper, resulting in a futuristic lattice pavilion design. The steps outlined in the script include: The animation likely visualizes the transformation from a flat hexagonal grid into the intricate 3D pavilion, showcasing step-by-step modifications and geometric layering.
INSPIRATION Looking at a variety of different organic motions and kinetic facades, our group was inspired by the ripple effect caused by a drop of water. Looking at a variety of different organic motions and kinetic facades, our group was inspired by the ripple effect caused by a drop of water. Free water droplet impact … Read more
The intent of this project is to design and optimize a greenhouse located in an area with a pressing need for sustainable agriculture and challenging climatic conditions. The building aims to enhance local food security, improve agricultural productivity, and provide a controlled environment for growing diverse plant species year-round. The optimization focuses on maximizing sunlight … Read more
Coral growth exhibits fascinating features, particularly in the way it forms patterns that effectively delineate occupied and unoccupied spaces. As the global population and urban areas continue to expand, leveraging these natural growth patterns can provide innovative solutions for urban planning. This project aims to optimize urban zoning by drawing inspiration from brain coral growth … Read more
From the fibonacci natural behaviour to spiral buildings Last term I simulated the pattern of hurricanes in terms of the fibonacci sequence… …This term I want to find architectural examples that follow the have a spiral design pattern and study the parameters and performance criteria
Through a meticulous analysis of data extracted from the site and a comprehensive understanding of Barcelona’s climatic conditions, our visionary project sets its sights on the future, envisioning Barcelona in the year 2050 as a harmonious blend of urban living and natural serenity. At the heart of our exploration lies the theme of urban forestry, … Read more
The golden ratio is renowned for its aesthetically pleasing and harmonious proportion, found throughout nature. When observed within the context of a spiral, this ratio repeats itself, serving as an efficient way to distribute objects around a central element, maximizing the number of elements while maintaining equal spacing and minimizing wasted space. IDEA Designing a … Read more
Introduction to Chladni Plate and Patterns Pseudocode Surface Manipulation Displacement Mapping Loop to stimulate movement of an object over selected Vibration field curve Final Data and Parameters Future steps
Simulating the hurricane movement following the Fibonacci Spiral Script – Exploration for 2D Animation Anemone Loop Animation Final Video with Animations
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
Natural Behavior Simulation | Computation Design Level 1 Final | MAA01 – Term II – 2023/24 | Professors: Oana Taut and Lora Fahmy A visit to Cosmo Caixa Science Museum in Barcelona introduced me to the ferrofluid substance and its reaction to magnetic forces. I took this video on my visit, and it inspired the … Read more
