Conceptual design including wing loading and CFD-based aerodynamic and structural analysis. View the interactive model on the home page.
Ongoing research into counter-rotating propeller configurations for wake reduction. Performing CFD simulations for hydrodynamic performance up to 1000m depth.
Designed a valveless pulsejet engine based on classical geometry. Performed internal flow analyses using SolidWorks Flow Simulation.
Serving as Head of Avionics for Team Agnipaksha. Designed optimized electronics for rocket flight computers and test stand instrumentation.
Developing a Python-based tool with AI to estimate aircraft L/D ratios directly from 3D geometry models.
Conceptual study of supersonic inlet flow physics, focusing on shock control and compression mechanisms.
Geometric shaping for Radar Cross Section (RCS) reduction, inspired by the Lockheed Martin Hopeless Diamond.
Designed landing gear, electronics integration, and gripper mechanisms for mission-specific drone performance.
Created landing gear assemblies inspired by heavy cargo architectures, focusing on load distribution stability.
Created a range of designs from basic trainer aircraft to sophisticated configurations using professional CAD suites.