BIO
A passionate and results-driven
I am a skilled embedded systems and firmware engineer with strong proficiency in C, C++, and Python. I specialize in developing IoT and mechatronic systems, leveraging tools like PlatformIO, STM32CubeIDE, and Arduino IDE. My expertise spans embedded communication protocols (UART, SPI, I²C, 1-Wire), wireless technologies (BLE, Wi-Fi, LoRa/LoRaWAN, Zigbee, NFC, Cellular), and network protocols (TCP/IP, HTTP(S), MQTT, WebSockets).
I have hands-on experience in data analysis and visualization using Python libraries such as NumPy, Pandas, and Matplotlib, and have built GUI tools with PySide6 and Tkinter. I also develop web interfaces using Django and Flask and implement CI/CD pipelines using GitHub Actions and Docker.
With a solid background in hardware-in-the-loop (HIL) testing, OpenOCD debugging, PCB and CAD design, and experience in various manufacturing processes (3D printing, PCB fabrication, welding, lathe operations), I bring a comprehensive understanding of the full product lifecycle—from concept and prototyping to deployment and field testing.
PYTHON 91%
C 95%
DJANGO 79%
C++ 85%
OpenOCD 82%
HARDWARE IN THE LOOP 85%
DOCKER 90%
NUMPY 95%
PANDAS 93%
Matplotlib 88%
PySide6 90%
PYSERIAL 91%
BLE PROTOCOLS 91%
CLASSIC BLUETOOTH PROTOCOLS 93%
Wi-Fi PROTOCOLS 91%
LORA PROTOCOL 93%
LORAWAN PROTOCOL 92%
ZIGBEE PROTOCOL 96%
NEAR FIELD COMMUNICATIONS (NFC) PROTOCOL 93%
CELLULAR COMMUNICATIONS PROTOCOL 86%
UART PROTOCOL 89%
USART PROTOCOL 91%
SPI PROTOCOL 92%
I2C PROTOCOL 88%
1-WIRE PROTOCOL 88%
TCP/IP PROTOCOL 87%
HTTP/HTTPS PROTOCOL 90%
MQTT PROTOCOL 92%
UDP PROTOCOL 88%
WEBSOCKET PROTOCOL 90%
I2S PROTOCOL 93%
PCM PROTOCOL 91%
SDIO PROTOCOL 92%
USB PROTOCOL 87%
SWD PROTOCOL 90%
PCB DESIGN 88%
CAD DESIGN 92%
MECHATRONICS SYSTEMS 88%
PLC PROGRAMMING 90%
3D PRINTING 89%
CI/CD 94%
FLASK 95%
GITHUB ACTIONS 90%
Developed with a strong focus on safety, accessibility, and low-power performance,
solution designed to help farmers monitor and manage farm conditions remotely and in real time.
IoT-based vehicle tracking and analytics platform tailored for commercial fleets and logistics operations.
IoT-powered remote health monitoring system designed to assist caregivers, hospitals, and family members in tracking patient vitals in real time.
ASTE is an intelligent speed regulation system developed to enhance road safety for fleet vehicles.
The Clocking Device is a biometric time and attendance system designed for institutional and organizational use.
IoT-based air quality monitoring device designed to measure and report pollution levels caused by internal combustion engine (ICE) vehicles in real time.
Anitrac is a smart device designed for real-time monitoring of livestock health and location.
BirdsBGone is an intelligent, solar-powered bird deterrent system developed to protect farms, gardens, and sensitive installations from bird interference
I'm excited about the possibilities that technology brings and
am always eager to connect with like-minded professionals, collaborators,
and organizations. If you're looking for a dedicated hardware and firmware developer with
a passion for innovation, let's connect and explore how we can
work together to bring your ideas to life.
It is a critical step in hardware development, transforming circuit concepts into physical boards that can be manufactured and assembled.
use of specialized software to create precise 2D and 3D models of mechanical components and assemblies.
writing low-level software that directly controls hardware devices, typically stored in non-volatile memory such as flash.
