Hohmann transfer orbit modeling with Hall-Effect thruster integration, implemented in Python, C++ and MATLAB with 3D visualization and validated delta-V calculations for LEO to GEO missions
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Updated
Jun 6, 2026 - Python
Hohmann transfer orbit modeling with Hall-Effect thruster integration, implemented in Python, C++ and MATLAB with 3D visualization and validated delta-V calculations for LEO to GEO missions
This repository contains our VXP2 Prototype 1.0A for IISc FSID/STEM Technical Assessment. A research-grade implementation of Physics-Informed predictive health monitoring. Developed for IISc, this prototype utilizes Random Forest architectures to translate NASA CMAPSS telemetry into verified engine safety clearance protocols.
Physics-informed predictive maintenance (PdM) framework for rocket engines. Leverages Random Forest Regression on NASA CMAPSS telemetry (FD001) to automate engine safety clearance and solve the "Certification Bottleneck" in orbital launch.
This repository contains our VXP2 Iteration 1.0B for IISc FSID/STEM Technical Assessment. Hybrid AI-Physics Predictive Maintenance for Aerospace. Integrating LSTM Neural Networks with Thermodynamic Guardrails to achieve >80% accuracy in engine RUL prediction. Built for Orion Spacetech.
Autonomous Spacecraft Telemetry Anomaly Detection — LSTM Autoencoder · Layer 5 of ORBITIQ Sentinel SSA Platform
AI and machine learning portfolio presenting projects in deep learning, computer vision, and intelligent systems.
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