I am a biomechanics software developer dedicated to creating affordable solutions for motion analysis. My work focuses on both markerless motion capture systems and systems using Noitom Axis Studio, offering low-cost options for equipping educational facilities. I design tools and workflows that support teaching and research in kinesiology and biomechanics, making advanced motion analysis accessible to universities, schools, and training centers.
Markerless video joint angular velocity analyzer
The Joint Motion Analyzer is an affordable software application I’ve developed for real-time motion analysis in biomechanics and kinesiology. It uses markerless motion tracking via MediaPipe to analyze human movement directly from video files, screen recordings, or live video calls such as Zoom.
Users can select specific joints—like shoulders, elbows, hips, knees, wrists, or ankles—to analyze. The software calculates joint angles and angular velocities in real time and displays these as plots alongside the video feed. It can handle mirrored video streams (for example, from video conferencing apps), making it practical for remote teaching or tele-assessment scenarios.
This tool is designed to be cost-effective for educational settings, enabling universities, colleges, and training centers to teach biomechanics and kinesiology with accessible technology, without the high cost of traditional motion capture systems.
Angular Velocity for Axis Studio
The Mocap Analysis Tool is a professional software application I’ve developed to work seamlessly with high-quality motion capture systems like those from Noitom. It connects to live motion capture streams over a network using UDP and supports BVH (Biovision Hierarchy) files, enabling precise analysis of 3D human movement. Users can select specific joints and track rotational angles and angular speeds in real time. The tool visualizes motion data through dynamic plots, helping researchers and educators observe and interpret movement patterns frame by frame. Adjustable settings such as analysis window size and update rate offer flexibility for different research protocols or teaching scenarios. This application helps make advanced motion capture technology more accessible and practical for biomechanics and kinesiology education and research, empowering institutions to integrate professional-grade analysis into their work efficiently and cost-effectively.