Robust GPU-based virtual reality simulation of radio-frequency ablations for various needle geometries and locations.
Niclas KathHeinz HandelsAndré MastmeyerPublished in: Int. J. Comput. Assist. Radiol. Surg. (2019)
Keyphrases
- virtual reality
- needle insertion
- radio frequency
- force feedback
- virtual environment
- virtual humans
- virtual reality technology
- virtual world
- computer graphics
- virtual training
- three dimensional
- augmented reality
- interactive virtual
- virtual space
- collaborative virtual environments
- virtual museum
- soft tissue
- feature extraction
- tangible user interface
- simulation environment
- frequency domain
- image processing