Exploring how an AI agent works with a real 3-axis motion platform: through safety gating and deterministic execution, a workflow loop driven by natural-language interaction runs from image input to physical plot.
Mechanical Engineer — design, simulation, collaboration & complex engineering systems.
Turning complex engineering constraints into designs that are clear, reliable, and buildable, and exploring new ways of working in which an AI agent collaborates with real hardware systems.
Exploring how an AI agent works with a real 3-axis motion platform: through safety gating and deterministic execution, a workflow loop driven by natural-language interaction runs from image input to physical plot.



Taylor-Couette flow is a classic model for studying rotating shear flow, flow instability, and the evolution of vortex structures. The project built a repeatable, measurable experimental platform to support comparative flow-field studies of Newtonian fluids and shear-thinning non-Newtonian fluids.



A large estuary tidal gate must provide storm-surge and flood protection under extreme tide levels while keeping everyday navigation open, making it a typical large, composite engineering system. Under multiple constraints spanning flood control, navigation, hydrodynamics, fabrication, maintenance, and operation, the project evaluated an engineering solution that balances safety, feasibility, and maintainability.
Sanitized — no original drawings or engineering parameters
The Three Gorges ship lock is the inland-waterway ship lock with the most consecutive chambers and the highest total head and inter-chamber filling head among ship locks built to date. To improve the management and O&M efficiency of complex mechanical facilities, the project established a unified, traceable digital-asset foundation and a visualization platform.
Sanitized — no original drawings or engineering parameters

Combining high-speed imaging experiments with Fluent numerical simulation to study cavity evolution and the transient hydrodynamic response during the water entry of a hydrophobic-surface sphere.

The underbody diffuser improves the airflow and pressure distribution beneath the car to raise its downforce and aerodynamic efficiency. Combining 2D concept screening with simplified 3D full-car simulation, the project made an engineering trade-off between aerodynamic gain and manufacturing complexity.
Clarity is a scarce engineering skill. Turning vague requirements into explicit goals, constraints, and outputs matters more now that people and AI agents are starting to learn how to work together.
AI is not a wish-granting machine. Only by learning where its limits lie through steady, real use can people, AI, and traditional tools each take on the work they suit.
Let constraints pick the tool. A handy tool, used long enough, quietly starts defining the problem for you.
Collaboration ends in an actionable consensus; who was right matters less than reaching one.
Thanks for taking the time to look through my work.
If anything here feels interesting or relevant to what you're building, feel free to reach out — I respond more reliably than an underconstrained simulation.