Effects of Synchronized Leg Motion in Walk-in-Place Utilizing Deep Neural Networks for Enhanced Body Ownership and Sense of Presence in VR.
Juyoung LeeMyungho LeeGerard Jounghyun KimJae-In HwangPublished in: VRST (2020)
Keyphrases
- neural network
- joint angles
- human body
- inverse dynamics
- humanoid robot
- human motion
- motion capture
- image sequences
- virtual reality
- pattern recognition
- optical flow
- motion analysis
- motion detection
- space time
- motion estimation
- virtual environment
- fuzzy logic
- random walk
- sagittal plane
- camera motion
- spatial and temporal
- back propagation
- body movements
- degrees of freedom
- inverse kinematics
- motion model
- visual data
- motion planning
- motion field
- motion segmentation
- feature points
- artificial neural networks
- motion tracking
- feed forward
- moving objects
- haptic device
- parallel manipulator
- upper body
- end effector
- spatio temporal
- position and orientation
- recurrent neural networks
- fuzzy systems
- computer graphics
- control system
- neural nets
- action recognition