daniel@daster.org

Engineering & Projects

I design and build integrated engineering systems that bridge hardware, embedded software, and microfluidics. My work spans PCB development, optical sensor integration, and real-time control systems, with a strong focus on experimental validation and practical implementation.

Embedded Systems

  • Real-time droplet detection using interrupt-driven architectures
  • High-speed signal processing for opto-electrical sensing applications
  • Comparator-based event detection with hardware-level optimization
  • Real-time firmware development using interrupt-driven architectures on ARM-based microcontrollers
  • Embedded data acquisition and feature extraction 
  • Opto-electrical sensor integration for droplet-based microfluidic systems
  • Analog front-end design for comparator-based signal conditioning
  • PCB-based implementation for Lab-on-PCB platforms
  • Photodetector and illumination alignment for high-contrast detection
  • Experimental validation using high-speed video reference measurements

Hardware

Software & Computational Tools

  • Development of a microfluidic flow parameter calculator
  • Droplet velocity analysis tool validated against video-based measurements
  • Signal processing algorithms for real-time feature extraction
  • Data analysis and experimental validation workflows
  • MATLAB / Python-based processing pipelines
  • More projects on: 
 
GitHub
Background

B.Sc. Mechatronics

M.Sc. Nanotechnology

Ph.D. Candidate
Engineering Sciences

Collaboration

Let’s collaborate
on research.

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