Computational researcher with over 7 years of experience developing vision-based and data-driven systems for healthcare and bioengineering applications. Proficient in Python, OpenCV, TensorFlow, and PyTorch, with expertise in real-time object detection, pose estimation, and 3D reconstruction algorithms. Recognized through publications and awards, demonstrating a strong commitment to advancing computational methods for biomedical research.
Languages & AI/ML: 
Libraries: 
Hardware: 
Design: Autodesk Inventor β’ Fusion 360 β’ Meshmixer β’ Slicer3D
- Computer Vision: Real-time object detection, pose estimation, 3D reconstruction
- Healthcare Applications: Vision-based systems for medical diagnostics
- Bioengineering: Data-driven solutions for biological systems
- Machine Learning: Deep learning models for biomedical applications
- Image Processing: Advanced algorithms for medical imaging
β‘ Currently exploring: Joint kinematics and advanced pose estimation techniques
π‘ Always interested in: Collaborating on innovative computer vision projects in healthcare and bioengineering