For image-guided surgery using 3D medical images, we have developed a 3D di
splay system employing the principle of integral photography (IP). This sys
tem consists only of an AT-compatible computer, a liquid-crystal display (L
CD), and a lens array. The image for display is constructed by an algorithm
for high-speed rendering based on the principle of IP.
The 3D image is projected and displayed in space and can be seen by multipl
e observers in accordance with the observing position without using special
glasses or position sensors. Moreover, since the projected 3D image can be
moved by manipulation by the observer, the preoperative information operat
ion can be grasped intuitively during the operation by aligning the preoper
ative 3D image with the observing direction of the patient. The 2D resoluti
on and depth-direction resolution of the projected image based on this syst
em are both in proportion to the resolution of the LCD that is used, which
at the present stage is insufficient. However, in this system, since it is
in principle possible to display a 3D image accurately with a simple device
and to change the direction of observation, this system may be usable in i
mage-navigated surgery when higher-precision LCDs become available in the f
uture. (C) 2001 Scripta Technica.