About Me
I am an applied science consultant with a bachelor’s degree in electrical engineering and a PhD in applied physics. During my doctoral research, I gained experience in both hardware and software development. I currently lead and conduct clinical experiments while overseeing multidisciplinary projects. I also have a strong interest in emerging technologies, including AR/VR and artificial intelligence, and I continue to expand my expertise and scope in these areas.
Your Companion in Creativity, Turning Ideas into Reality.
How I Can Help Your Project
- Experimental Design & Validation
- Data Analysis & Modeling
- Software & Hardware Development
- Translational & Clinical Research Support
Who I Work With
- Academic researchers & labs
- Startups & R&D teams
- Clinicians & clinical researchers
What Services I'm Providing
Consult ➔ Analyze ➔ Build ➔ Integrate
Project Consultation
I start by listening and understanding your goals, challenges, and constraints — then define the most effective technical approach.
Data Analysis & Interpretation
Transforming complex datasets into meaningful insight through modeling, signal analysis, and scientific interpretation
Hardware & Prototype Development
Designing and building tailored instrumentation, sensors, and embedded systems to bring ideas into the physical world.
Software & System Integration
Connecting hardware, software, and experimental workflows into reliable, fully functional solutions
Work Experience
Design software: SolidWorks, Blender
Fabrication: FDM (fuse deposition modeling), SLA (resin printing), and SLM (metal 3D printing)
- Optical sensor and imaging system development
- Integration and operation of experimental instrumentation
- Design and setup of measurement and testing environments
- Development of research protocols and validation procedures
- Design and integration of optical and biomedical measurement systems (NIRS, OCT, photoacoustic imaging, interferometry)
- Development of non-invasive physiological monitoring techniques
- Hardware configuration and system optimization
- Signal processing and algorithm development
- Experimental design, validation, and data analysis
- Clinical protocol design and experimental planning
- Human subject data acquisition (NIRS, ultrasound FMD)
- IRB-aligned research execution
- Physiological signal analysis and statistical evaluation
- Research staff training and standardized procedure implementation
- Direct client engagement across diverse customer groups
- Clear communication of technical and non-technical information
- Problem-solving and conflict resolution
- Strong interpersonal and relationship-building skills