Engineering solutions from a Distinction-level MEng graduate. Fast, documented, and built to last. Real specs: ±2mm kinematic accuracy, <5ms latency, 99.5% CV precision.
End-to-end robot design and build. Kinematic modelling, FEA structural analysis, real-time C++ firmware, and sensor integration.
Real-time computer vision systems using OpenCV, YOLO, and TensorFlow. Deployed on edge hardware. Proven 99.5% accuracy.
Siemens PLC ladder logic, HMI design, SCADA integration, and FESTO pneumatics. IEC 61131-3 compliant.
Arduino, ESP32, and Raspberry Pi firmware with AWS IoT cloud integration. Smart devices, sensor networks, dashboards.
SolidWorks and Autodesk Inventor modelling. GD&T manufacturing drawings at ±0.05mm tolerances. FEA validated.
1-to-1 MEng/BEng support. Robotics, control systems, embedded firmware, technical writing. From a graduate who scored Distinction.
Email or book a call. Describe your project — no engineering jargon needed, I'll ask the right questions.
Within 24hrs I'll send a clear proposal: deliverables, timeline, fixed price. No hidden costs.
Regular updates throughout. You see progress — not a black box. Fully documented code and drawings.
Full IP transfer, documentation, and handover. Optional retainer for ongoing support.
"±2mm kinematic accuracy at <5ms computation time on a 12-DOF system. The inverse kinematics implementation was genuinely impressive for a graduate project."
"99.5% gesture recognition accuracy on embedded hardware is a production-grade result. Deployed on Raspberry Pi with <5ms wireless latency — this works in real systems."
"Applied engineering thinking to operational problems: 10% productivity uplift and 12.5% downtime reduction using KPI analysis. Engineering discipline applied to business."