Effects of Heart Rate Feedback on an Asymmetric Platform using Augmented Reality and Laptop.
Arindam DeyYufei CaoChelsea DobbinsPublished in: VR Workshops (2022)
Keyphrases
- augmented reality
- heart rate
- blood pressure
- human computer interaction
- virtual objects
- virtual reality
- heart rate variability
- mixed reality
- physiological signals
- physical activity
- multi user
- vital signs
- markerless
- camera tracking
- real environment
- user interface
- tangible interaction
- real objects
- molecular structures
- real time
- mobile robot
- live video
- real scenes
- field of view
- software engineering
- expert systems
- three dimensional