PIM-VR: Erasing Motion Anomalies In Highly-Interactive Virtual Reality World with Customized Memory Cube.
Chenhao XieXingyao ZhangAng LiXin FuShuaiwen SongPublished in: HPCA (2019)
Keyphrases
- virtual reality
- highly interactive
- computer animation
- user friendly
- virtual environment
- virtual space
- computer graphics
- photorealistic
- anomaly detection
- augmented reality
- optical flow
- human motion
- three dimensional
- virtual world
- camera motion
- virtual museum
- motion tracking
- image sequences
- virtual humans
- multi sensory
- virtual training
- virtual reality technology
- interactive virtual
- tangible user interface
- collaborative virtual environments
- virtual laboratory
- motion planning
- user interface
- expert systems
- pattern recognition