![Presenting a Holistic Framework for Scalable, Marker-less Motion Capturing: Skeletal Tracking Performance Analysis, Sensor Fusion Algorithms and Usage in Automotive Industry — JVRB - Journal of Virtual Reality and Broadcasting Presenting a Holistic Framework for Scalable, Marker-less Motion Capturing: Skeletal Tracking Performance Analysis, Sensor Fusion Algorithms and Usage in Automotive Industry — JVRB - Journal of Virtual Reality and Broadcasting](https://www.jvrb.org/past-issues/13.2016/4481/figure02.jpg)
Presenting a Holistic Framework for Scalable, Marker-less Motion Capturing: Skeletal Tracking Performance Analysis, Sensor Fusion Algorithms and Usage in Automotive Industry — JVRB - Journal of Virtual Reality and Broadcasting
![Figure 3 from Comparison of 3D Joint Angles Measured With the Kinect 2.0 Skeletal Tracker Versus a Marker-Based Motion Capture System. | Semantic Scholar Figure 3 from Comparison of 3D Joint Angles Measured With the Kinect 2.0 Skeletal Tracker Versus a Marker-Based Motion Capture System. | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/a930717c6aa902b3dfbd2ee4fdb6a3dfeeae1066/15-Figure3-1.png)
Figure 3 from Comparison of 3D Joint Angles Measured With the Kinect 2.0 Skeletal Tracker Versus a Marker-Based Motion Capture System. | Semantic Scholar
![Skeleton Joints Captured by Kinect Sensor: (a) 20 joints by Kinect V1,... | Download Scientific Diagram Skeleton Joints Captured by Kinect Sensor: (a) 20 joints by Kinect V1,... | Download Scientific Diagram](https://www.researchgate.net/publication/326538551/figure/fig2/AS:864409371025408@1583102662618/Skeleton-Joints-Captured-by-Kinect-Sensor-a-20-joints-by-Kinect-V1-b-25-joints-by.jpg)