The MaCAD is a unique online programme training a new generation of architects, engineers and designers ready to develop skills into the latest softwares, computational tools, BIM technologies and AI towards innovation for the Architecture, Engineering and Construction (AEC) industry.
Bab al-Luq Market in Cairo was designed to be bright, legible, and hygienic—then decades of add-ons and wear turned it into a dim, confusing interior. This proposal makes one clear move: a parametric double-skin roof that diffuses daylight and defines a readable circulation spine. Location: Cairo, Egypt Climate: Hot, dry, sunny Typology: Historic market hall … Read more
Introduction: More Than a Robot in a Hard Hat The buzz around Artificial Intelligence in the Architecture, Engineering, and Construction (AEC) industry is impossible to ignore. Every conference seems to feature a new tool promising to revolutionize everything from design to demolition. You might be forgiven for picturing an AI as a robot in a … Read more
Introduction Floating Grounds proposes a flood-resilient urban model for Jakarta that merges housing, public programs, and a stadium into a single floating system. Instead of resisting water, the project accepts it as a permanent condition and uses it as an organizing element. The work explores how large-scale infrastructure can support community life while addressing land … Read more
Ingredients Climate Reykjavík’s climate shapes the entire project. The site is exposed to strong, multi-directional winds reaching 27 m/s, with a prevailing direction around 135°. Daylight conditions are equally extreme, shifting from long summer days to very short winter ones. The system therefore needs to adapt, protect, and still create comfortable public spaces. Form Our formal … Read more
Monsoon Nest is a modular housing proposal for Bangkok that responds to monsoon rainfall, flooding, and high-density urban conditions. The project explores adaptable modules, elevated structures, and passive climate strategies to create resilient, community-oriented living environments in a tropical context. The design of Monsoon Nest is informed by four primary parameters: contextual environmental data, parametric … Read more
Glass fibre 3D printed temporary pavilion A structural and topological investigation into voxelised lattice systems, combining catenary form-finding with performance-driven optimisation to explore emergent spatial order and material efficiency. The Idea This project explores how a rigid, modular voxel system can define and enclose a pavilion, while an internally generated catenary geometry shapes circulation and … Read more
From Dense Lattice to Optimized 3D-Printed Structure 1. Project Overview This project explores the design and structural optimization of a temporary pavilion using computational design tools and lattice-based construction logic. The pavilion is conceived as a porous, walkable structure designed for large-scale 3D printing using glass-fiber reinforced recycled PET. The main objective is to investigate … Read more
This technical report details the computational workflow developed for our final structural optimization assignment. The project methodology follows a rigorous sequence: initial form-finding, stress-line analysis, lattice topology selection, and cross-section optimization, culminating in a robotic fabrication strategy. General Workflow Overview The design process is structured around a linear algorithmic pipeline. It begins with form-finding utilizing … Read more
The Concept The pavilion’s striking, organic form isn’t just aesthetic; it is rooted in the Clebsch diagonal cubic, a cubic algebraic surface defined by the equation: x03+x13+x23+x33+x43=0x sub 0 cubed plus x sub 1 cubed plus x sub 2 cubed plus x sub 3 cubed plus x sub 4 cubed equals 0 subject to the … Read more
The Sine Tide aims to analyse the design of a PET pavilion from a lattice structure that fits within an 8x8x6m bounding box. The pavilion was designed using the sine function. Later on, the lattice structure was formed using Crystallon. After the design, the loads and materials were defined using Alpaca4d. Finally, it was optimised … Read more
For the Love of Pasta Introduction: From Your Dinner Plate to Architectural Design Look closely at a piece of pasta. The curves, ridges, and hollows aren’t just for holding sauce; they are feats of structural engineering in miniature. But could the mathematical logic behind a common pasta shape be scaled up to create a full-sized, … Read more
Structural Optimization Process This project investigates the structural optimization and fabrication-aware design of a temporary lattice pavilion. The study focuses on the relationship between architectural form, structural performance, and robotic fabrication constraints, with particular attention to displacement control, material efficiency, and buildability. The pavilion occupies an 8 × 8 m footprint with a total height … Read more
Introduction Intentions The pavilion was conceived as a flowing spiral, a path where visitors enter without seeing the exit, guided like a wave through the form — much like a shell in the ocean. Our aim was to create a geometry that is neat yet non‑banal: generated by simply rotating a curve, but enriched with … Read more
Lightweave pavilion uses a Octa thet lattice structure , where share the idea is to create a spatial experience from a repeated structural module. the structure itself becomes the envelope, and variation in height and density guides circulation. Workflow Workflow – Wind Load Circulation Scheme Structural System Why a twisting surface?● Good load redistribution● Short … Read more
Design Concept | Horseshoe Crab–Inspired Lattice Structure Inspired by the exoskeleton of horseshoe crabs and the ITECH Research Pavilion 2024, this project explores a biomimetic lattice shell structure supported by discrete legs.A continuous mesh distributes loads efficiently across its surface, transferring forces to the ground through optimized supports.The parametrically generated lattice expresses structural performance, integrating … Read more
//DESIGN CONCEPT & EARLY EXPLORATIONS //COMPUTATIONAL DESIGN SYSTEM First Sine Roof Iteration First Column Iteration //FORM FINDING PROCESS AND LESSONS LERANED Second Canopy Columns Iteration Final Sine Roof Iteration The sine roof form was developed through an iterative form-finding process using both sine and inverted sine curves. By culling index points from each curve and … Read more
