Cashless – A digital payment system

Description: An online platform providing tokenized payments for events. Supporting vendors & users with integrated dashboards and budget & history analysis tools. Integrated web API’s for location QR code payments support.

Technologies: HTML, Bootstrap CSS, JS Node.js – Express, Sqlite3

Links:

  • Coming soon

Academic Projects

Sudoku Solver

Description: Implementation of a Sudoku solver using recursive backtracking algorithms. Features dual implementations in both Python and C, demonstrating algorithmic problem-solving and cross-language programming skills. Includes input validation, grid visualization with color-coded changes, and support for custom puzzle input.

Technologies: Python, C

Links:

UHasselt++

Description: Chrome browser extension developed to modernize and enhance the UHasselt student portal (mijnstudentendosier.uhasselt.be). A collaborative project with 7 contributors that improved the user interface and added modern functionality to the university’s student management system. The project was archived after UHasselt announced plans to update their website.

Technologies: HTML, JavaScript, CSS, Tailwind CSS

Links:

Future Academic Projects

Reconics: Modular Mechatronic System for Precision Liquid Handling

Description: Interdisciplinary academic engineering project (Reconics Phase A) developing a modular mechatronic system with embedded control software for precision liquid handling applications. The project focuses on designing and prototyping a single-channel electronic pipette to validate the proposed architecture, precision control approach, and modular design principles. This collaborative project combines Informatics (embedded systems, software architecture, control algorithms) and Industrial Engineering (mechanical design, mechatronic systems integration, prototyping) expertise.

Key Features:

  • Target volumetric resolution of 0.5 μL with sub-micrometer positioning accuracy
  • Modular software architecture with hardware abstraction layers
  • Closed-loop position control using encoder feedback and calibration algorithms
  • Compact stepper motor with planetary gearbox and fine-pitch lead screw
  • Mathematical validation through kinematic analysis and force budget calculations

Technologies: Embedded C/C++, Real-time control systems, CAD (mechanical design), Stepper motor control, Encoder-based closed-loop control

Status: Planning phase

Links:

  • Project overview coming soon

Personal Projects

More coming soon hopefully!