I started Fab Academy by meeting the Kannai/Japan crew, going through the two-day bootcamp, and getting oriented to the program while settling into the Japan/Portugal rhythm.
Hey, I'mYoussef
I am participating in Fab Academy to learn how to build in hardware. I have been building in AI, XR, and neuroscience, and I aim to connect those with the physical world. I am pursuing Fab Academy in Japan and Portugal as part of my Morehead-Cain gap year. I am an incoming CS + Neuro freshman at UNC Chapel Hill.
Final projectOpen overview
AR glasses that read brain activity
My final project is AR glasses that read brain activity and make that signal visible through a small wearable display. The goal is to connect EEG sensing, embedded processing, and an XR-style output into one physical object instead of keeping the brain-computer interface as a laptop demo.
Presentation slide
Project video
Weekly archive
I set up my working environment, learned the Git/GitLab workflow, rebuilt the first version of my personal site, and opened the first notes for the final project.
I used CAD week to design the first visual identity and glasses concepts for my final project, moving between vector work, 3D modeling, and file compression.
I made vinyl stickers, cut laser parts, and turned the neuron-model idea into a press-fit kit while learning the cutting settings that actually matter.
I explored embedded programming through XIAO ESP32-S3 tests: stepper and blink experiments, Grove Shield soldering, sensor input, OLED animation, camera streaming, and Muse EEG experiments.
I printed and scanned objects while pushing toward the final project: a Mobius lattice test, glasses hangers for the XIAO Grove Shield, and a Hyperscape scan of the lab.
I designed my first PCB around a hardware LIF neuron idea, moving from circuit explanation to KiCad schematic, board layout, and manufacturing checks.
I learned CNC machining by designing Syrian mosaic geometry and a Damascus Gate-inspired panel, then moving the model through Fusion CAM and machining prep.
I simplified and produced a PCB, learned how in-house milling rules affect board design, and compared that path with board-house production for future project boards.
I focused on input devices by redesigning the neuron PCB as a software LIF board, then milling, soldering, and testing it as an input-focused electronics step.
I built output-device experiments around the glasses system, including a 3D PCB concept with display, buzzer, and LED, then worked through milling, soldering, and display issues.
I documented networking through ESP-NOW group work and built a networked music-player direction using the XIAO, a receiver board, and the broken-OLED lessons.
I contributed to the machine build by editing CAD, testing PLA wood filament, and working on the frontend/backend link for the drawing-machine interface.
I used the midterm review to organize the systems diagram, final-project plan, and remaining schedule before the final spiral of work.
I explored molding and casting through wax-stamp, fridge-magnet, low-melt metal, and biomaterial tests, then compared the processes and what each one is good for.
I built the software side around XR machine interfaces and the NeuroAR dashboard, including VRKanji, ARBrushMachine, and the first agentic glasses interface ideas.
I integrated the first NeuroAR spiral by building the chassis, optics, electronics, milled board, and final packaged glasses prototype.
I used wildcard week for embroidery, heat pressing, and sandblasting: a logo test, a Syria design, and a few fabrication processes outside the normal electronics/CAD path.
I clarified the applications and implications of NeuroAR: what it will do, who it is for, what I need to build, what it costs, and how I will evaluate it.
I wrapped Fab Academy by documenting invention, IP, income, and how I plan to release NeuroAR as an open project with the FAB license and future spirals.
