Much work remains to realize a clinically useful system, notably in the acquisition speed, reconstruction, and registration of the 3D imagery.
These data sets can be displayed in true 3D and registered to the exterior anatomy of the patient. The system can also display multiple laparoscopic range imaging data sets to widen the effective field of view of the device. These cues are not available in conventional laparoscopic surgery due to the displacement of the laparoscopic camera from the physician’s viewpoint. Az AI egy ideig egyttmkdik, m vratlanul tveszi a kiborgot felett az irnytst, s Slavikot leszmtva vgez a. Such a system can restore the physician’s natural point of view and head motion parallax that are used to understand the 3D structure during open surgery. A trtnet szerint Kane eltnse utn a Nod jjegyestshez Slavik felleszti CABAL-t (Computer Assisted Biologically Augmented Lifeform), a hadsereget segt mestersges intelligencit. A digital light projector, a camera, and a conventional laparoscope create a prototype 3D laparoscope that can extract depth and video imagery. We also introduce a custom design for this display. The system uses 3D visualization, depth extraction from laparoscopic images, and six degree-of-freedom head and laparoscope tracking to display a merged real and synthetic image in the surgeon’s video-see-through head-mounted display. We present the design and a prototype implementation of a three-dimensional visualization system to assist with laparoscopic surgical procedures.
