Building smarter, more stable energy systems.
Research-driven engineering in power systems, grid stability, embedded measurement hardware, and control-oriented analysis. Designed to present complex work in a way that feels sharp, modern, and worth clicking into.
Featured Work
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Real-Time Inertia Estimation for Modern Power Systems
Developing advanced algorithms for continuous grid inertia monitoring using controlled power-step perturbations. The goal is to improve visibility, stability awareness, and control readiness in increasingly converter-dominated electrical networks.
Selected Projects
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Real-Time Inertia Estimation
Advanced algorithms for continuous grid inertia monitoring using power step perturbations in low-inertia and converter-rich environments.
VSM Stability Analysis
Small-signal and large-signal stability assessment of grid-forming inverter controls using Virtual Synchronous Machine behavior and control-oriented analysis.
Power System Grid Stability
Large-scale stability analysis and eigenvalue movement studies across operating scenarios using simulation-driven workflows and system-level modeling.
UAV Design & Control
Engineering and assembly of customized flight-control systems for multi-rotor platforms with emphasis on response, stability, and embedded integration.
GPS-Synced Measurement Hardware
Embedded system prototypes using Arduino and GPS/GNSS timing for precise UTC-synchronized grid frequency and phasor-related measurements.
Research & Analytical Modeling
Theory-backed modeling, simulation, and engineering interpretation for dynamic systems, control structures, and measurement-based insight extraction.
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