Aerox

My inspiration for AeroX comes from witnessing aviation accidents around the world, which deeply affected me as an aviation student. The recent Air India crash was especially heartbreaking—seeing families grieving made me question what I, as a student, could create to help prevent such tragedies.

When I learned more about aviation safety, I understood that many accidents are linked to human error, mechanical issues, and bird strikes. This made me wonder why modern science and technology still haven’t fully eliminated these risks, even though aviation is one of the most advanced fields in the world.

This curiosity led to AeroX. For bird-strike prevention, I designed a high-frequency acoustic system that helps keep birds away from aircraft engines and propellers. For the cockpit, I developed an AI assistant that monitors pilot alertness, fatigue, and focus—similar to how modern cars warn distracted drivers—while ensuring that the pilot always retains full control.

My newest addition is Real-Time Structural Health Monitoring, where AeroX continuously reads the aircraft’s strain and vibration signals and predicts the early signs of structural fatigue or weakness before they become dangerous. This allows pilots and maintenance teams to act proactively instead of reactively.

AeroX combines mechanical protection, cognitive support, and structural prediction into one unified safety system aimed at preventing accidents, empowering pilots, and building trust in aviation through innovation and AI.