Electrical Engineer
Hnin Oo Wutt Yi
Final-year Electrical Engineering student at Warsaw University of Technology, specializing in architectural illumination analysis and power systems design.
About
I'm currently completing my Bachelor's degree in Electrical Engineering at Warsaw University of Technology. My engineering thesis focuses on analyzing architectural illumination possibilities based on daytime photography.
As a woman in STEM, I'm passionate about bringing diverse perspectives to engineering challenges and creating innovative solutions in power systems and lighting design.
Languages
Technical Skills
CAD & Design
Simulation & Analysis
Lighting Design
Productivity
Education
Warsaw University of Technology
Bachelor of Engineering in Electrical Engineering
Currently in final semester. Engineering thesis: "Analysis of architectural illumination possibilities for architectural complexes based on daytime photography."
National Management Degree College
Tourism and Hotel Management
Projects
Academic and engineering projects demonstrating expertise in electrical systems, power electronics, circuit analysis, and computational methods.
Comprehensive analysis of complex electrical circuits using nodal and mesh analysis methods. Implemented MATLAB simulations to calculate currents and voltages across all circuit elements, with RMS value calculations using Simulink. Compared theoretical analysis with simulation results to verify electrical model reliability, achieving 99%+ accuracy between methods.
Designed complete electrical installation for a machine hall including lighting system design using DIALux software. Achieved 520 lux illuminance (exceeding 500 lux standard) with 24 high-bay LED luminaires. Performed voltage drop calculations, circuit protection selection, and switchgear placement. Created comprehensive one-line diagrams and selected real-world components meeting EN 12464-1 standards.
Designed and simulated a two-stage energy conversion system integrating a 3kW photovoltaic generator to the utility grid. Implemented Boost converter (DC/DC) and Half-Bridge converter (DC/AC) with PID controllers in PLECS. Achieved 99.74% overall system efficiency with 700V DC-Link voltage regulation. Selected real-world semiconductor components (IGBTs, diodes) meeting voltage and current specifications.
Implemented and compared three numerical methods (Euler, Heun, Runge-Kutta 4th order) for solving ordinary differential equations in a mutual inductance circuit. Analyzed both linear and non-linear coupling scenarios using Newton interpolation, spline approximation, and polynomial fitting. Calculated power dissipation using composite rectangle and trapezoidal integration rules, validating results across different excitation signals.
Experience
Restaurant Worker
KFC Warsaw
Daily use of Polish language in direct customer service, demonstrating strong communication skills and adaptability in a fast-paced environment.
Get in Touch
I'm currently open to new opportunities and collaborations. Feel free to reach out!