- Research, design, and development of space systems, with emphasis on flight hardware and software.
- Emphasis on evidence-driven design, reproducible toolchains, and test harness integration.
- Firmware: low-level C, deterministic RTOS design, hardware bring-up.
- PCB design: schematic capture and multi-layer layouts.
- Avionics: telemetry, power systems, and fault containment.
- Systems: requirements-driven architecture, HIL testing, automated regression.
- Project management: firmware lifecycle, milestone planning, and hardware risk management.
- Critical software: safety- and mission-critical development, verification, and traceability.
- Reusable architectures: modular firmware and hardware patterns, libraries, and interfaces.
- Human factors: cognition, learning, and skill acquisition.
- Psychology of education and applied neuroscience.
- Space systems research: sustainability, interplanetary mission design, and lunar habitation.