Glasses-Free Tabletop 3D Display for omnidirectional viewing by multiple viewers has been successfully developed.

The developed novel technique canfloat standing 3D image on a blankflat tabletop surface, and allow multiple viewers to observe the 3Dfrom omnidirection of 360° in seated condition. It is designed to be a friendly interface for multiple users for varied tabletop tasks by featuring our glasses-free method and observation style.

For generation of the 3D images, fVisiOn employs a newly developed special optical device as a screen and a series of micro projectors arranged circularly. The combination of those devices reproduces a light field in a certain volume on the table. The light field represents a bunch of directional rays radiated from surfaces of objects which are assumed to be on the table. The light field of our method is optimized for observing in seated condition. In other words, the fVisiOn’s viewing area occupies an oblique position above the table. Additionally, our entire 3D imaging mechanism is installed underneath the table. It keeps the tabletop area clear and does not disturb collaborative work and natural communications. For example, fVisiOn can display virtual 3D images beside printed documents and physical mock-ups (Figure 1.)

The developed system is a prototype to validate a 3D generation principle we proposed. It employs a conical-shaped optical device and 96 projectors, and covers the viewing area of approximately 120° around the table, though it is 1/3 of ideal implementation. This primal prototype can float the 3D images of a height of approximately 5 cm on the tabletop surface like a centerpiece in the center of the table (Figure 2.)

n the future, we intend to develop an entire 360° viewable tabletop 3D display. The current obtainable 3D images are rather blurred and unfocused. In a future configuration, the image quality will be refined by improving optics characteristics and applying a correction method for the projected images. Moreover, we will tackle a study to enlarge the generated 3D images. Our developed technique befits for supporting common tabletop communications because the ring-shaped viewing area is formed around the table for seated condition, which generally be seen in a communication when seated at a roundtable. Another example is to support operations based on the geographic information such as urban planning, traffic control and disaster prevention. The system also promises to be adequate for the medical field, i.e. informed consent and simulation of operations. As a one of the ultimate goals, this technique has a possibility to construct a 3D arena because the observation style of a stadium is similar to this system.

The academic presentations of fVisiOn will be made at “3D Image Conference 2010” to be held on July 8-9 at the University of Tokyo, Japan and at “SIGGRAPH 2010” to be held on July 25-29 in Los Angeles, USA. We also plan a public exhibition in “Keihanna Research Fair” to be held in Kyoto, Japan in coming autumn.

One of the techniques to display a volumetric 3D image seen from any direction of 360°. Those systems generally employ a screen which is rapidly rotating or sweeping in a certain volume, and project synchronized cross-sectional 2D images on the screen’s position and posture in the volume. To avoid touching the screen of rapid scanning, the systems are usually covered by a glass case and untouchable 3D images can only be displayed inside the case. Moreover, invading the space of the tabletop is another drawback to be solved for tabletop use because the systems require huge mechanical gimmicks on the table.

A tabletop, which is an area of the table surface, is a shared space for collaborative work and is useful for varied tasks. When multiple users are performing shared tabletop tasks, separate images with correct viewing perspectives should be provided in each user’s direction. Our 3D displaying technique can support such communications naturally by displaying 3D images beside documents or real objects. It is useful not only for face-to-face communication but also for remote and multi-user collaborative work.

Viewing area is an area which is designed for observing 3D images with correct perspective. Ordinary methods are generally designed to be viewed perpendicularly.
Therefore, the viewing area is formed only within a narrow range from the normal of the display. Our newly developed method produces the parallax of depth perception in the direction of a circular path of a horizontal plane located above the table. When the both viewer’s eyes are on the ring-shaped viewing area, he/she is able to observe the 3D images at the center of the table without the use of 3D glasses.