The Underlying Reasons of the Navigation Control Effect on Performance in a Virtual Reality Endoscopic Surgery Training Simulator.
Nergiz Ercil CagiltayErol OzcelikMustafa BerkerGonca Gokce Menekse DalverenPublished in: Int. J. Hum. Comput. Interact. (2019)
Keyphrases
- virtual reality
- force feedback
- virtual training
- virtual environment
- robot assisted
- minimally invasive
- augmented reality
- coronary artery bypass
- computer graphics
- virtual world
- computer animation
- interactive virtual
- photorealistic
- virtual humans
- three dimensional
- computer assisted
- control system
- minimally invasive surgery
- visual data mining
- virtual reality technology
- haptic device
- virtual space
- simulation model
- computer vision
- collaborative virtual environments
- virtual museum
- control strategy
- tangible user interface
- data mining