MY PROJECTS | Portfolio

My Recent Projects

Welcome to the section of my portfolio dedicated to my recent projects. Here, I share some of the most significant work I've completed in recent years. Each project is a testament to my commitment to innovation and excellence, reflecting my passion for creating unique and impactful solutions. Whether in web development, content creation or illustration, each initiative is the fruit of many hours of thought and hard work. Explore my projects and discover how I've managed to push the boundaries to achieve my creative goals.

IT Project - Paths and geometric modeler

This project is part of the computer science project carried out in the first year at Arts et Métiers. The aim of the project is to create a Python program to calculate the shortest path through a building and display it in a FreeCAD geometric modeler with multiple additional functions. Through this project, I invested more than 100 hours of my time, during which I was able to increase my knowledge of computer coding and learn how to use the FreeCAD modeler.

This program aims to create a building with the dimensions desired by the user, and by choosing 2 coordinates to find the shortest path and display it on the modeling software console, but the program doesn't stop there. For one thing, the user can choose between a connexity of 6 or 10, display all possible paths, find the coordinates of the box furthest from the emergency exits modeled by a green wall, and calculate the minimum number and location of emergency exits so that the distance to any point in the building is less than a threshold given by the user, and place them on the modeling software console to any point in the building is less than a threshold set by the user and places them on the modeler

HYDREAL : Hydrogen-powered wheelchair

This project was conceived as part of JITCAM, a day dedicated to innovation around hydrogen. Our team of apprentice engineers and sales staff came up with a revolutionary wheelchair combining lightness, increased autonomy and compactness.

By integrating hydrogen as an energy source, we exceeded the expectations of a conventional wheelchair. Our vision: to create a versatile device that improves mobility not only for people with reduced mobility, but also for individuals suffering from obesity, giving them greater freedom and a better quality of life.

We have targeted the American market, known for its enthusiasm for new technologies, in order to offer a solution that is innovative, sustainable and adapted to tomorrow's needs.

Sweet Gift

The idea for this project came to me after noticing the enormous amount of wrapping paper discarded every Christmas, often with no effort to recycle it. I was also inspired by the aesthetic appeal of the fake presents displayed under Christmas trees in shopping malls. So, I thought, why not recreate that same vibe at home?

That’s how the idea of a reusable wrapping paper was born—designed to last for hundreds of uses. The concept features an ingenious cardboard box: simply lift the lid, and the cube unfolds to showcase the gift placed at the center of the layout.

With a wide range of colors and sizes, this product would allow anyone, for just a few dollars, to transform their stack of gifts into a movie-like display.

Remote-controlled car whith stirling motor

This project was carried out as part of the "Supervised Personal Initiative Work" during my second year in preparatory classes for competitive engineering school exams. I wanted to combine two of my passions: Stirling engines, which I find fascinating for their energy efficiency and environmental impact, and remote-controlled cars, a hobby I’ve enjoyed since childhood. Through this project, I was able to deepen my understanding of how Stirling engines work, as well as explore the different types of fuels available and their environmental characteristics.

Python motion tracking program

This project was carried out as part of the "Supervised Personal Initiative Work" during my first year in preparatory classes for competitive engineering school exams. It was my fisrt project.

It was designed in two complementary stages: I developed a program capable of comparing two databanks: one representing an ideal movement, the other corresponding to the movement actually performed. The program analyzes these data and generates a comprehensive report for the user, including :

- A curve comparing speeds and positions (x, y),
- A video of the actual movement, enhanced by an overlay showing the deviation from the expected movement.

The second step was to code a tool capable of tracking an object in a video and extracting all its positions accurately, depending on the resolution of the file.

This program opens up great possibilities, particularly in sports where precision of movement is crucial: karate, Formula 1, dance, and much more. This project enabled me to strengthen my programming skills and design a unique and innovative solution.