I am a final-year Electrical Engineering student with a strong grounding in power systems, circuit theory, and applied electronics, driven by a first-principles approach to engineering. My academic focus centers on understanding how electrical systems behave at a fundamental level and translating that understanding into efficient, real-world implementations.
I am a published co-author of two technical books, where my work involves breaking down complex electrical concepts—such as load behavior, power distribution, and system analysis—into structured, technically accurate explanations. This has strengthened my ability to communicate engineering ideas with precision, clarity, and academic rigor.
My engineering work spans hardware prototyping, automation, and system optimization, with hands-on experience in microcontrollers, sensors, and IoT-based architectures. I regularly work with simulation and analysis tools to validate designs before implementation, ensuring reliability, efficiency, and scalability.
In parallel, I develop modern web applications to bridge the gap between physical electrical systems and digital interfaces. This allows for better visualization, monitoring, and documentation of engineering systems—an increasingly critical requirement in contemporary electrical and industrial engineering.
I am particularly interested in power systems, intelligent electrical infrastructure, and the integration of software with hardware, aiming to build systems that are not only functional but analytically sound and future-ready.
- Electrical Engineering Fundamentals & Power Systems
- Circuit Design, Analysis & Simulation
- Automation, IoT & Embedded Systems
- Research Methodology & Technical Writing
- Web Development for Engineering Interfaces
My work philosophy emphasizes clarity over complexity, fundamentals over shortcuts, and engineering solutions that survive real-world constraints, not just theoretical evaluation.