Effect of Ambulatory Conditions and Virtual Locomotion Techniques on Distance Estimation and Motion Sickness of a Navigated VR Environment.
Aidan G. MorrisMichael C. VailGabriel S. HannaAnurag RimzhimPublished in: VR Workshops (2024)
Keyphrases
- distance estimation
- virtual reality
- virtual world
- virtual environment
- mobile robot
- virtual training
- environmental conditions
- robot motion
- virtual space
- augmented reality
- robotic systems
- space time
- motion estimation
- motion analysis
- virtual humans
- image sequences
- sufficient conditions
- real time
- camera motion
- motion model
- human motion
- optical flow
- motion capture
- e learning
- autonomous navigation
- data mining
- three dimensional
- real environment
- robot control
- video sequences
- computer graphics