Research

Developing wearable medical devices and bioimpedance monitoring systems for healthcare applications

My research focuses on the development of innovative wearable medical devices that enable continuous health monitoring for disease prevention and early intervention. I specialize in bioimpedance-based sensing, embedded systems for healthcare, and the integration of AI for medical data analysis.

Research Focus

  • Bioimpedance Analysis: Developing advanced techniques for measuring tissue properties and fluid changes
  • Wearable Medical Devices: Creating miniaturized, comfortable sensors for continuous health monitoring
  • Heart Failure Monitoring: Detecting early fluid retention to prevent hospitalizations
  • Electrode Optimization: Characterizing and improving electrode-tissue interfaces
  • Low-Power Electronics: Designing energy-efficient circuits for wearables
  • Medical Data Analysis: Creating algorithms for biomedical signal processing

Biomedical Wearable Devices

Development of miniaturized wearable devices for continuous health monitoring, focusing on heart failure and fluid retention detection.

Technologies & Methods:

PCB DesignMicrocontroller ProgrammingMobile App Development3D Printing
Related Projects

Bioimpedance Analysis

Advanced techniques for bioimpedance measurement, error reduction, and analysis for medical applications.

Technologies & Methods:

Electrode CharacterizationError ReductionMeasurement OptimizationCircuit Simulation
Related Projects

Research Impact

7+
Published Papers
2
Patent Applications
€20K+
Research Funding
1
Spin-off Company

Research Collaboration

I'm always interested in forming new collaborations with researchers and industry partners in biomedical electronics, wearable technologies, and healthcare innovation. If you're interested in working together, please don't hesitate to reach out.

Discuss Collaboration Opportunities