I'm an Electrical Engineering student at York University with a strong focus on embedded systems, PCB design, RF engineering, and FPGA development. I enjoy building full stack hardware systems from circuit design and signal conditioning to firmware and real time embedded software.
I specialize in bridging the gap between low level hardware behavior and deterministic software control, with a strong interest in RF systems, real time data acquisition, and custom embedded architectures.
When I build systems, I work with:
Working on mission-critical embedded systems for a rover platform operating in high-stakes engineering environments. My role focuses on integrating firmware with hardware subsystems, ensuring deterministic real-time behavior, and validating system reliability under physical constraints.
Designed and built an active HF frequency tracking system for legacy radio equipment. The system taps into internal oscillator signals, conditions them through a discrete transistor amplification stage, and processes them using an ESP32 to compute and display real-time operating frequency.
Key highlights:
- High-speed signal sampling from RF oscillator stages
- Custom analog front-end for signal conditioning
- Real-time frequency computation and display logic
- Hybrid analog + digital embedded architecture
Developed an industrial-grade environmental monitoring node using STM32 and RS485 Modbus RTU communication to measure soil parameters in real time.
Key highlights:
- Custom Modbus RTU master firmware implementation
- CRC-16 frame validation and error handling
- Multi-parameter sensing (temperature, humidity, pH, NPK, TDS, salinity)
- Robust RS485 long-distance communication design
- PCB-level signal integrity and protection strategy
π§ Email: [email protected]