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.
SWARM_FACADE investigates using swarm intelligence principles (separation, alignment, and cohesion) in architectural design and façade construction. By employing multi-agent-based swarm intelligence algorithms, a conceptual design method was introduced. Evolutionary optimization and parametric control were applied to define solid-void elements in the building façade. The resulting façade variations were optimized and evaluated based on relative daylight … Read more
Today, the earth faces two looming threats: ecological collapse from resource depletion and widespread unemployment due to automation. Although these concerns are seemingly opposites, they share a common root – inequality. Both contributing heavily to the future of labour, and humanity. The skyscraper,stands as a testament to this inequality. Its very existence codifies the power … Read more
// COMPUTATIONAL OPTIMISATION STRATEGY // An exploration to connect entry points in a plot for means of access, in a urban setting offering shades, across visibility, optimised for trails adapting to the existing landscape DESIGN OBJECTIVES
Facade optimization based on Sunlight Two layers of the facade: one is stable, and the other layer grows based on the points that are warmer or receive more sunlight to reduce heat and sunlight. The design objectives Environmental Sustainability Energy Efficiency: Reduce energy consumption for heating, cooling, and lighting. Climate Adaptation: Design to adapt to … Read more
This optimization uses computational design to achieve the best placement of the Grand-Stand around a predefined F1 racetrack and topology for maximum visibility for spectators using Grasshopper and Galapagos Evolutionary solver.
Design optimization strategy of a garage in London based on Karamba and Ladybug Sensitivity Analysis Total (average) fitness iterations Catalogues load distribution in ceiling in different iterations
Site The city of Porto Alegre in Brazil has faced recently the largest flood in the recorded history. The 2nd place happened 80 years ago across the span of 22 days. This year, this record was broken in 4 hours. As for now, only for the city of Porto Alegre, more than 242 thousand homes … Read more
PHYLLOTAXIS The arrangement of leaves or floral parts around a stem or axis is called phyllotaxis. The term comes from the Greek phullon – ‘leaf’ and taxis – ‘arrangement’. The model was first proposed by Wilhelm Hofmeister in 1868. IMPORTANCE: The objective of the phyllotaxis is to avoid overcrowding. So that all leaves get maximum … Read more
Floor Plan optimization LB Sun light Hour & karamba Catalog Comprised Catalogue (Best Iteration per Generation) Facade optimization LB incident Radiation Catalog Comprised Catalogue (Best Iteration per Generation) Renders Video
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
Optimization strategy These adaptable panels will stay transparent as long as the heat is beneficial for the plant, but will turn opaque when the heat is too strong and could harm the plant. Adaptation design objectives Pseudo-code: Optimization GIF Worst fitness Best fitness LadyBug sun analysis Iterations Catalog Iterations from worst (most uneven sunlight/heat distribution … Read more
harnessing genetic algorithms for better living In a neighborhood where high-rise buildings are becoming more prevalent, can we still prioritize and design for wellbeing? In an exploration of the interplay between architecture, the environment and human wellbeing, this project utilizes genetic algorithms to optimize the design of mixed-use residential towers, based on key environmental factors … Read more
Optimizing the building skin inspired by Rippled droplets Meta balls as an isomorphic surfaces constructed as composite assemblages of the mutually infecting parametric objects with internal forces of mass and attraction.region of influence,which could be additive (positive) or subjective(negative)Isomorphic architecture(Bubble) Blobitecture , blobism and blobism are terms for a movement in architecture in which buildings … 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
This term’s Computational Design Seminar focused on leveraging optimization tools to explore and refine architectural designs. Our project aimed to generate a diverse catalogue of design iterations, systematically optimizing each iteration to meet specific performance criteria. Utilizing plugins such as Wallacei for optimization and Karamba3D for structural analysis, we developed a Play Area located in … Read more
Background Self-sustaining growth patterns of coral ecosystems can provide sustainable underwater living environments. Pseudocode Influencing Factors Surface Type Generate Coral Optimal lighting Surface Type (Optimal lighting) Responsive Structure The structure of the coral residence changes shape with sunlight. During the day, corals expand to maximize photosynthesis, and at night, they contract to conserve energy. Responsive … Read more
