The MAA is a visionary master program with an innovative and open structure, mixing diverse disciplines, shaping professionals capable of producing theoretical & practical solutions towards responsive cities, architecture & technology.
Swarm Intelligence
This project explores the application of swarm intelligence in simulating fish behavior evading predators. Utilizing computational algorithms inspired by natural swarms, the simulation aims to mimic the collective movement patterns of fish, optimizing their escape routes. By implementing principles such as repulsion, alignment, and cohesion, the model simulates the coordinated response of a fish swarm … Read more
NEUMATIC LIQUID COLLISION
Introduction to Neumatic Colloids Nematic colloids are materials with perpendicular surface anchoring embedded in planar nematic liquid crystal (NLC) cells. Topological defects, such as point defects and disclination lines, are a necessary consequence of broken symmetry in the system. In nematic liquid crystals (NLCs), defects manifest as isolated points and disclination lines, which can form … Read more
Studies on Natural Flocking Behavior
A phenomenon in which self-propelled individuals, using only limited environmental information and simple rules, organize into an ordered motion. This ordering even occurs at two dimensions where ordering is not possible equilibrium systems. Boid Movement Different Behaviors Alignment Behavior Alignment ensures that individual agents within a flock move in a consistent direction, fostering cohesive group … Read more
Rooftop Bamboo Oasis
IaaC – Rooftop Space Analysis Case Studies Design Diagrams Blueprint of the Pavillion / Design Development Iterations Animation Render
Growth on butterfly wings.
The wings of a butterfly are membranous with veins running longitudinally from the base (where the wings are attached to the thorax) to the outer margins of the wings. The pattern and arrangement of these veins (wing venation) is an important diagnostic tool in the identification of butterflies. It is therefore important to understand the … Read more
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
Fractalization of Tree Branching
Fractals are commonly found within nature. They are self-similar structures, where one aspect of the fractal is identical to the rest. This allows it to be scaled up or down while fitting within itself. Within trees, fractalization is found in the way the branches are grown from each other, always yielding smaller and smaller versions … 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
Fluid_Dynamics_Rainfall_Simulation
Fluid dynamics is a branch of fluid mechanics that studies the motion and behavior of fluids, which include liquids and gases. It focuses on understanding how fluids respond to different forces, pressures, and environmental conditions. This field is fundamental to various scientific and engineering applications, ranging from the study of natural phenomena like atmospheric and … 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
SMOKE
SMOKE is a simple exploration of a plume of smoke rising from a camp fire. The project explores thermal turbulence and swarm behavior, with forces from mixing air acting on the particles found in smoke, dispersing them into the air. Deconstructing Natural Behavior: Smoke – Swarm Behavior Smoke is comprised of a collection of tiny … 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
Studies on Fractal Growth – Computational Desing II
The term “fractal” was coined by the mathematician Benoît Mandelbrot in 1975. Mandelbrot based it on the Latin fr?ctus, meaning “broken” or “fractured”, and used it to extend the concept of theoretical fractional dimensions to geometric patterns in nature In mathematics, a fractal is a geometric shape containing detailed structure at arbitrarily small scales, usually … Read more
Reef Rhythm: Differential Growth in the dance of Reaction Diffusion
This project explores the differential growth under the reaction diffusion phenomena. Moving from the microscopic behavior of magnetic fluids to the macroscopic phenomenon of differential growth, revealing the interconnectedness of physical processes and biological phenomena. Beginning with an exploration of the properties and behaviors of magnetic fluids, and establishing an understanding of their unique dynamics. … 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
