A comprehensive geospatial analysis and visualization platform for Mars exploration data, integrating NASA's Mars datasets, USGS planetary data, and advanced AI/ML techniques for terrain analysis, landing site selection, and mission planning support.

Production-ready scaffold for a spacecraft Vehicle Management System spanning real-time firmware (FreeRTOS), ROS 2 autonomy, and simulation.

An AI-powered system for analyzing James Webb Space Telescope images to identify artificial structures, Dyson spheres, and objects that don't follow standard gravitational rules - potential indicators of intelligent extraterrestrial life.

Rust-based embedded satellite communication system implementing for real-time space communications. This project features a complete satellite-ground architecture with multi-band RF communication, CCSDS protocol compliance, and deterministic real-time performance using Embassy async runtime.

The Internet of Space Things (IoST) is a revolutionary platform that brings Internet of Things (IoT) concepts to space exploration, specifically designed to support human spaceflight missions. This project creates an intelligent, interconnected ecosystem of sensors, communication systems, and AI-driven analytics to ensure crew safety,

enterprise-grade space telemetry operations platform designed for real-time spacecraft data processing, analysis, and monitoring. This system provides comprehensive telemetry ingestion, processing, and visualization capabilities with robust security, high availability, and regulatory compliance for modern space missions.

A modern, browser-first guidance, navigation, and control (GNC) simulation suite built with TypeScript, React Three Fiber, and WASM.

Python project to experiment with bounded spacecraft motion near the binary asteroid system Moshup-Squannit (1999 KW4), inspired by RF3BP pulsating-rotating formulations.

AEGIS-SE is a comprehensive defense systems engineering suite designed to demonstrate cutting-edge software engineering capabilities for Department of Defense applications at Eglin Air Force Base. This project serves as a proof of concept and technology demonstrator for the Software Engineering Institute (SEI) Advanced Deterrent group

A Java-based Command and Control System Simulator designed to replicate the functionality of military joint operations platforms. This enterprise-level application demonstrates defense contracting software development practices, incorporating real-time tactical unit management.

This project implements a sophisticated flood-fill based anomaly detection system designed for small satellites and deep-space probes. The system can quickly isolate contiguous regions of anomalies on 2D/3D grids representing various spacecraft subsystems (solar arrays, radiators, sensor planes) and trigger containment actions.

ATRI is a mission-oriented scaffold for AI-assisted requirements traceability, automated change-impact analysis, intelligent gap detection, and real-time traceability dashboards. The architecture is aligned to the needs of safety-critical software assurance practices like those used in NASA IV&V programs: requirements rigor, independent analysis

This project is a modular framework for performing Independent Verification and Validation (IV&V) on software used in spaceflight systems. It simulates realistic subsystem behavior, identifies edge-case failures, and traces requirements to ensure robust, safety-critical performance.

A high-fidelity real-time simulation of a space launch system using QNX Neutrino RTOS, designed to emulate real-time conditions, subsystem communication, and fault-tolerant behavior for pre-launch and ascent operations.