Georgia Tech’s MS-ME immerses students in robotics, thermofluids, composites, and AI-driven design. Research groups build Martian rovers, soft exosuits, and hydrogen micro-turbines, while industry co-ops at Rivian, SpaceX, and Boston Dynamics turn thesis chapters into deployed hardware within months. Access to the Ben T. Zinn Combustion Lab and the Aerospace Systems Design Center enables cross-disciplinary innovations that fly—literally.
Bio-inspired flapping-wing UAV using compliant mechanisms
CFD-optimized heat exchanger for supercritical CO₂ power cycles
Soft-robotic glove with pneumatic network for rehab therapy
Topology-optimized 3-D printed rocket injector manifold
AI-assisted digital twin of wind-turbine drivetrain health
Hydrogen combustion stability study in micro-turbine combustors
Wave-energy converter with adaptive resonance control
Autonomous underwater glider propulsion efficiency analysis
Shape-memory alloy actuator for space-deployable solar arrays
Wearable sensor network for athlete joint-load monitoring
Maglev flywheel energy storage prototype for microgrids
Finite-element crash simulation of composite monocoque EV chassis
Smart HVAC diffuser with real-time occupancy feedback
Reinforcement-learning controller for bipedal robot balance
Thermoelastic damping characterization in MEMS gyroscopes
Design and build machines that power a sustainable future.
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