Projects Timeline

A distributed network of monitoring stations. This is where I learned electronics, C++/Python, UI work, and how sensors behave as one system. Current status: prototypes + rollout.

Restoration of classic Polish dosimetry equipment: RUST Polon Alpha detectors, URS-3, SAPOS-90, and vintage HP oscilloscopes. Gained hands-on experience with legacy circuits, integrated memory response analysis, high-voltage module repairs, amplification and counting circuits.

Cross-platform desktop software (Linux, Windows, macOS) for the RaySID gamma spectrometer. Deep dive into binary packet structures, checksums, and Bluetooth communication protocols. Python GUI application for receiving dosimeter packets and plotting gamma radiation spectrum in real-time.

Status: In development (beta available on GitHub)

Final engineering project for Automation & Robotics degree. A modular rotating platform designed for astronomy and radio astronomy applications. Features joint interpolation, Python control application, and STM32 microcontroller with independent timer-driven dual motor control.

100% solo project — design, construction, firmware, and UI.

Commercial team project for Interelcom. Designed a 4-layer PCB in KiCAD featuring STM32 microcontroller with proper power supply decoupling capacitors, display interface, and peripheral management.

PCB Bluetooth antenna design: Complete RF calculations, impedance matching, trace geometry optimization, and all the delicate black magic that comes with embedding antennas on PCB. Every millimeter matters.