I am a student in networks and telecommunications, with experience in network administration, cybersecurity, and telecom. Discover my projects and skills.
I am sociable, rational, and honest. I enjoy chatting with people and am also a good listener.
From Toulouse and a former player, rugby is a passion deeply rooted in me, both for the game and the emotions and values it conveys.
I discovered photography during my last trip, and since then, I've become more and more interested in it. Today, I also experiment with photo and video editing to create quality results and beautiful memories.
I love enjoying Toulouse with friends, whether it's strolling through the city center, spending time by the riverbanks, or watching a match over a drink and a game of pétanque in a friendly atmosphere.
I have been swimming every week for nearly six years. It's much more than a sport for me: it’s a true moment of relaxation. When I’m in the water, I think about nothing, everything becomes silent, as if I were in a bubble. It helps me refocus, relax, and recharge my batteries.
Click here to explore my complete CV and get a detailed overview of my background, skills, and experience.
🔗 View the documentClick here to explore my complete CV and get a detailed overview of my background, skills, and experience.
🔗 View the documentAs part of a SAE, we designed the complete network architecture for a paramedical office, integrating telephony, network services, and monitoring across two sites. We used a hypervisor with two virtual machines, set up an address plan, a Windows domain, and a GNU/Linux server to host essential services.
In this project done on GNS3, we designed a complete network for a company spread across multiple sites. The architecture integrates essential services (DHCP, DNS, Web), inter-VLAN routing, IPv4/IPv6 tunnels, and a VPN for security. The goal was to ensure connectivity, performance, and data protection between sites.
Using Arduino and M5Stack modules, we designed a wireless network of nodes capable of exchanging data via the RF95 protocol. The goal was to implement reliable communication protocols, with error handling, routing, and message duplication avoidance, all programmed in C directly on the microcontrollers.
