DE3835308A1 - Device for the reproduction of stereoscopic pictures (images) - Google Patents

Abstract

A device for the stereoscopic reproduction of two transparencies (slides) taken at different aspect angles or of two objects represented at various aspect angles by means of a device for separately imaging each transparency or each object only on the left or the right retina of the eyes of the viewer is to be refined in such a manner that the device, in conjunction with a unit which is easy to handle, makes it possible to view the transparencies, taken at various aspect angles or the objects, shown at different aspect angles, in a stereoscopic manner. For this purpose, the device consists of a holographic projection screen (14) which channels the pictures (13, 13') which have been projected at predetermined angles, in such a manner that they reach the eyes of the viewer separately from one another. <IMAGE>

Description

The invention relates to a device for stereoscopic Reproduction of two from different angles taken slides or two under different ones Objects represented aspect angles with a device for separate illustration of each slide or object only on the left or right retina of the viewer's eyes.

Seeing with both eyes not only improves visual acuity, but also provides information about the depths stretch of the object. Take due to the distance of the eyes this was an observation point from different directions, so that slightly different retinal images arise, which in Brain to be fused into a spatial image. This spatial image impression results from the cross-disparity, which is the most important psychological depth factor of the eyes.

To render an object spatially, two of these can be flat fields are produced, which then separate the eyes are fed in such a way that they merge into a spatial image that the object is spatially in the same position as it was in the Her position of the pictures. The spatial rendering  of the object through the two fields is caused that these are taken from different angles have been, this difference of the two fields the is stereoscopic paralax.

The two fields, the reproduction of which is stereoscopic Image can be photographed. The two Fields have to be separated again using image separation processes be given that separate the eyes of the beholder be offered.

It is known that the two fields are not spatially separated to distinguish by their color and then by color Feed filter glasses separately to the eyes so that stereoscopic anaglyph images are created. After the anaglyph the two images are moved in complementary colors printed or projected on top of each other and the observer sees the pictures through the color filter glasses, their parts again are complementary, single color.

Another known possibility of image separation can be done by different polarization of the partial images and separation of the images in front of your eyes with special glasses that only do that transmits correct polarized light on each side.

Furthermore, stereoscopic images can be created by so-called oscillation fades are generated, in which the left and right eye is released.

Stereoscopic image reproduction is also through holograms possible. But for this it is necessary for every stereo to create a new hologram to be reproduced skopically.

The object of the invention is a device of the beginning  specified type to create that with an easy to use managing a stereoscopic view of the slides taken from different angles or of the objects displayed from different angles enables.

According to the invention, this object is achieved in a device Generic type solved in that the device a holographic projection screen, which the under predetermined angles on these projected images in such a way channeled that separately into the eyes of the Viewer.

In the device according to the invention, the projection plane formed by a holographic focusing screen that accordingly the different angles of incidence of the two on this proji graced fields a separation of the optical channels or Takes pictures so that they are separate from each eye of the viewer can be perceived. To illustrate the Fields on the holographic projection screen is a Projector provided which consists of two white light projection lamps and two projection optics, which the fields on the map holographic projection screen, a compen sationsoptik is provided, the aberration compensate for that generated by the oblique imaging planes will. Because the angle of the reconstructed optical channels from depends on the angle of incidence of the light rays Angle of incidence chosen so that each in the eyes of the beholder a field falls and thereby a spatial image impression arises.

The holographic projection screen used according to the invention can consist of the hologram of a focusing screen. This holo Gram of a focusing screen has the effect that each one  this projected image at a certain angle is reconstructed. The two fields are therefore like this projected onto the holographic projection screen that each Eye of the viewer perceives a field and the viewer therefore maintains the spatial image impression.

The diameter suitably corresponds to the aperture diaphragm the imaging optics for the object beam when the Hologram of the focusing screen in the usual eye relief, so that at the observation of the fields is sufficient for the observer There is room for maneuver.

According to an inventive development, it is provided that in the holographic projection screen the holograms of two matt slices are stored, which when recorded by one The two viewers have been shifted to each other enable stereoscopic viewing of slides or objects.

An embodiment of the invention is described below the drawing explained in more detail. In this shows

Fig. 1 is a schematic representation of a known method for the stereoscopic playback of two plane images, each of which is viewed by each eye of the viewer by its own optics,

Figure 2 is a schematic diagram of the stereoscopic reproducing two holograms recorded as planar images.,

Fig. 3 is a schematic representation of the stereoscopic display of two flat slides with the inventive holographic projection screen and

Fig. 4 is a schematic representation of the recording of a focusing screen as a hologram for producing the holographic projection screen according to the invention.

In the method shown in FIG. 1, the right slide 1 and the left slide 2 are perceived separately from the right and left eyes by separate optics 3 , 4 provided with aperture diaphragms, which each form separate optical channels for each eye that a stereoscopic image impression is created. Methods of this type can only be implemented in special visual devices that do not offer particular comfort for the viewer.

In the exemplary embodiment according to FIG. 2, the holograms of two flat images, which show the object to be spatially reproduced from correspondingly different aspect angles, are stored in a hologram. The hologram 5 contains the hologram of the holographically recorded left slide 6 and the hologram of the holographically recorded right slide 7 . If the two holograms are now reconstructed with the reconstruction beam 8 , the images of the holographically recorded slides are created for the right and left eyes without additional optical channels having to be provided for separating the images. The images are viewed through the pupils 9 , 10 , the diameter of which corresponds to the diameter of the aperture when the holograms are recorded. The pupils and aperture diaphragms are so large that the images do not overlap when viewed.

The method described with reference to FIG. 2 allows the stereoscopic reproduction of images without special optical auxiliary devices, which carry out the necessary channeling for the eyes. The effort for stereoscopic reproduction of the images is considerable, however, since two holograms must be recorded for each image.

The holographic stereo projector according to the invention will now be explained with reference to FIGS. 3 and 4.

The stereo projector according to the invention consists of two white light projection lamps 11 , 11 'and two projection optics 12 , 12 ', which represent the slides 13 , 13 'on the holographic projection screen. The projection optics 12 , 12 'are provided in a known manner with optical devices which compensate for the aberrations, which compensate for the oblique imaging of the slides on the holographic projection screen.

The central axes of the lenses 12 , 12 'are at such an angle to the plane of the holographic projection screen 14 that the two images projected onto the holographic screen are channeled through it so that they fall separately into the left and right eyes of the viewer . The angle of the reconstructed optical channels is dependent on the angle of incidence of the light beams, so that the optical channels or images are separated on the basis of the different angles of incidence. In the holographic stereoprojector according to the invention, the two optical channels are separated into one eye each without additional optical aids, so that the viewer is able to see stereoscopically in a simple and pleasant way.

The essence of the holographic stereo projector according to the invention can be seen in the holographic projection screen that the Separation of the optical channels.

The structure of the holographic projection screen 14 can be described most simply by its manufacture, which will now be explained with reference to FIG. 4.

The laser beam generated by the laser 15 is divided by the mirror 16 into an object beam 17 and a reference beam 18 . The focusing screen 20 is arranged in the object beam widened by the lens 19 , so that the object beam in the hologram plane is brought into interference by the lens 21 and the aperture diaphragm 22 with the reference beam widened by the lens 23 and a hologram of the focusing screen 20 is recorded.

If the hologram recorded according to the method according to FIG. 4 is now used in the stereo projector according to FIG. 3 as a holographic projection screen, this causes the optical channels to be separated. The reconstructing light beams are generated by the light sources and lenses, which additionally contain amplitude information in the form of a slide, so that each eye perceives the amplitude information of one slide without the image information created thereby interfering with the eyes.

The eyes only capture the first-order images, that appear under the given aspect angle. The pictures zero order do not appear because the viewer does not looking in their direction. The higher order images will be suppressed.

As is apparent from Fig. 4, an aperture stop 22 is used in the preparation of holo graphical projection screen whose diameter corresponds to the eye distance, so that screen 14 does not overlap the channeled images takes place at the channel separation by the holographic projection.

In order to enable two observers to simultaneously view the slides stereoscopically, the holographic projection screen can be manufactured in such a way that two holograms of the focusing screen 20 are stored, in such a way that the focusing screen is recorded twice in different positions . This double image of the focusing screen can be done by double exposure and appropriate shift. According to the different recording locations of the focusing screen in the manufacture of the holographic projection screen 14 , two observers can see the slides 13 , 13 'simultaneously stereoscopically.

It is also possible that the holographic projection screen 14 contains more than two holograms of the focusing screen 20 in different positions, so that more than two observers can view the slides stereoscopically.

Instead of the slides, for example, LCD's or other objects, which are constructed, for example, electronically, can be projected onto the holographic projection screen 14 from different aspect angles, so that the eyes of a viewer can see the object from the channel separation through the holographic projection screen See different aspect angles and this creates a stereoscopic image impression.

It is also possible to take the pictures from the different aspect do not simultaneously angle on the holographic projection to project screen, but alternately in short chronological order, so that motion pictures are stereoscopic can be displayed. This way you can not only Slides, but also show running films stereoscopically.

Claims (4)

1. A device for stereoscopic reproduction of two slides taken from different angles or of two objects shown at different angles with a device for separate imaging of each slide or object only on the left or right retina of the eyes of the beholder, characterized in that the device consists of a holographic projection screen ( 14 ) which channels the projected at predetermined angles on these images ( 13 , 13 ') in such a way that they enter the viewer's eyes separately. 2. Device according to claim 1, characterized in that the holographic projection screen consists of the hologram ( 14 ) of a matt screen ( 20 ). 3. Apparatus according to claim 1 or 2, characterized in that the diameter of the aperture diaphragm ( 22 ) of the imaging optics for the object beam ( 17 ) when recording the hologram of the focusing screen ( 20 ) corresponds to the usual eye relief. 4. Device according to one of claims 1 to 3, characterized characterized in that in the holographic projection screen saved the holograms of two focusing screens are that when they are taken a distance from each other the two viewers have been displaced the stereos Copying of slides or objects at the same time enable.