Add to ORKGAbstract. We describe a force feedback scheme that is able to provide for haptic depth perception for use during the static 2d viewing of 3d angiograms. The scheme returns 2d horizontal forces that bear some analogy with forces that would be needed to glide a virtual proxy on the vessel centerlines. The display system was evaluated by asking subjects to determine the relative depth of randomly selected points on vessel segments. The results indicate that subjects were able to discriminate the relative depth in an average time of 12 seconds and with an accuracy of 95%.
Human sensitivity to 3D gross shape changes was measured for the visual and haptic sensory channels....
Human sensitivity to 3D gross shape changes was measured for the visual and haptic sensory channels....
Human sensitivity to 3D gross shape changes was measured for the visual and haptic sensory channels....
We describe a force feedback scheme that is able to provide for haptic depth perception for use duri...
Current visualization methods for large volume angiograms share the difficulty of having to display ...
Video interaction is a common way of communication in cyberspace. It can become more immersive by in...
Three-dimensional ultrasound (3D US) is a novel imaging modality that allows real time visualization...
A key challenge facing 3D interface designers, and operators who teleoperate remote environments is ...
Current visualization methods of volume angiograms are limited in their ability to display vessel co...
Force (haptic) feedback devices (FFD) form an important field of research in virtual reality. They a...
Video interaction is a common way of communication in cyberspace. It can become more immersive by in...
We report the difference thresholds of the slope of a virtual surface rendered via a force-feedback ...
In recent years there has been an explosion of devices and systems capable of displaying stereoscopi...
The VIDET project is aimed at investigating the possibility of developing a wearable robotic system ...
The VIDET project is aimed at investigating the possibility of developing a wearable robotic system ...
Human sensitivity to 3D gross shape changes was measured for the visual and haptic sensory channels....
Human sensitivity to 3D gross shape changes was measured for the visual and haptic sensory channels....
Human sensitivity to 3D gross shape changes was measured for the visual and haptic sensory channels....
We describe a force feedback scheme that is able to provide for haptic depth perception for use duri...
Current visualization methods for large volume angiograms share the difficulty of having to display ...
Video interaction is a common way of communication in cyberspace. It can become more immersive by in...
Three-dimensional ultrasound (3D US) is a novel imaging modality that allows real time visualization...
A key challenge facing 3D interface designers, and operators who teleoperate remote environments is ...
Current visualization methods of volume angiograms are limited in their ability to display vessel co...
Force (haptic) feedback devices (FFD) form an important field of research in virtual reality. They a...
Video interaction is a common way of communication in cyberspace. It can become more immersive by in...
We report the difference thresholds of the slope of a virtual surface rendered via a force-feedback ...
In recent years there has been an explosion of devices and systems capable of displaying stereoscopi...
The VIDET project is aimed at investigating the possibility of developing a wearable robotic system ...
The VIDET project is aimed at investigating the possibility of developing a wearable robotic system ...
Human sensitivity to 3D gross shape changes was measured for the visual and haptic sensory channels....
Human sensitivity to 3D gross shape changes was measured for the visual and haptic sensory channels....
Human sensitivity to 3D gross shape changes was measured for the visual and haptic sensory channels....