DE2828910A1 - STEREO IMAGE VIEWER - Google Patents

Description

_ 3 -

The invention relates to stereo image viewing devices and more particularly to those which use the Pulfrich effect.

Numerous stereo image viewers have been proposed. With such a Time division multiplexing is used to create the impression of depth in a device an image displayed on a screen. In such a device, television signals on the basis of a field from a synchronized multiplexer on a time division multiplex method exposed. The television display device generates images on the screen according to a Sequence of odd field signals that can be viewed with the left eye, alternating with images corresponding to a sequence of even field signals that can be viewed with the right eye are. The images generated on the screen correspond to a sequence of alternating stereo observations of the left and right eye, as can be done for example by operating alternately Receives left and right cameras. The viewer must have special glasses that alternating with the field frequency the viewing of the reproduced image through the right and lock the left eye in synchronism with the reproduced video signal. The time division stereo viewing device thus requires complicated glasses to be electrically connected to the television receiver and also requires one considerable and complicated multiplexing facility. Left and right cameras or a complicated one

809883/0908

Camera from separate observation points Images supplies are necessary to generate the images for the even or odd fields be reproduced.

It has also become what is known as a "stereochrome" viewing device proposed in which an optionally colored image through prismatic lenses is looked at. As a result of the dispersion properties of the prism material in the spectacle lenses red light emanating from the reproduced image is diffracted more by the prism than blue light. Therefore, the red images can be made to appear closer to the viewer than the blue ones. Such a stereochrome system was only used in animation applied. The stereochromic system is extremely color sensitive and therefore has a limited one Scope of application. Since the color of the images must be carefully controlled, the cost is of a stereochromic program is almost twice as large as the production costs of a standard program or a two-dimensional program.

It has also already been proposed to use a stereo viewing device using the Pulfrich effect to create a three-dimensional effect in particular with regard to a side over the. screen to simulate moving object. This device has a dark filter lens for only one eye provided, which performs a dark adaptation with respect to the image on the screen, while the other eye is adapted to the surrounding brightness of the screen and the surrounding space. With such a device, an image or part of it moving sideways is removed from the plane of the

809383/0908

Screen and therefore simulates a stereo effect.

In the device described above, utilizing the Pulfrich effect, a dark filter lens is used used for only one eye to limit the light that that eye can see from the screen and also from surrounding sources, so there is a significant difference between the amount of light that the right or left eye is reached. Therefore, the pupils of the two eyes are stretched differently, which can lead to eye strain or fatigue, especially for a viewer, who uses the device for a long period of time.

The invention is based on the object of a stereo image viewing device to create the Pulfrich effect while avoiding the disadvantages of the prior art exploited to create an impression of depth when looking at a two-dimensional image, for example on a television screen, and viewing it over a long period of time made possible without straining or tiring the eyes.

The invention provides a stereo image viewing device for viewing a monocular image created a screen consisting of a polarizing plate around that of the reproduced Image to polarize outgoing light essentially in one plane, and polarizing glasses, through which the polarized image is viewed. The polarizing glasses have at least one lens with a plane of polarization that depends on the polarization

8098 8 3/0908

28289Ί0

tion plane of the polarizing plate is different, and another lens with a plane of polarization substantially equal to the plane of polarization of the polarizing plate.

In a preferred embodiment, the planes of polarization are of the first and second polarizing lenses at substantially equal angles opposite to the vertically polarized background or the ambient light is inclined equally attenuated by both lenses.

The invention is explained below with reference to FIGS. 1 and 2, for example. It shows:

Figure 1 in an exploded arrangement in perspective an embodiment of the stereo image viewer, and

FIG. 2 shows a part of the stereo image viewing device in a further embodiment.

As is known, the time delay in the transmission of an image from a dark-adapted eye can be to the visual cortex of the brain, i.e. the PuIfrich effect, induce the brain to render a two-dimensional representation or a monocular image as a three-dimensional one Capture image. The Pulfrich effect is described in "Eye and Brain - The Psychology of Seeing", R.L. Gregory, World University Library, London, 2nd ed. 1972, Chapter 6, especially pages 78-80.

Figure 1 shows an embodiment of the invention for use in an image display device 20, such as a usual television receiver, a projector under

809883/0908

use of a see-through screen or the like. The image display device 20 has a screen 21 on which a two-dimensional representation or a monocular image is reproduced for viewing.

The term "monocular image" used in the specification is intended to mean an image taken from a single The viewing point is generated from, in contrast to a stereo reproduction, the images of two having separate viewing points. A polarizing plate 22 is arranged and dimensioned so that it extends over the entire surface of the screen 21. The plane of polarization of the polarizing Plate 22 is shown in Figure 1 by hatching and has an angle θ with respect to it the vertical, which is preferably about 4-5 °.

The apparatus also has polarizing glasses 23 to be worn by a viewer while viewing the screen 21 so that the viewer's left eye 24-L can see the screen 21 through the left lens 23L and the right eye 24-R of the Viewer sees the screen through the right lens 23R of the glasses. The right lens 23R is made of a polarizing material whose plane of polarization is _{inclined to the right with respect to the vertical by the angle Q x} , so that it substantially coincides with the plane of polarization of the polarizing plate 22. The left lens 23L is made of the same polarizing material, the plane of polarization of which is inclined to the left with respect to the vertical by the angle θρ, which is equal to but opposite to the angle Q *. Because of the relative coincidence

809883/0908

The lens 23R also transmits the polarization planes of the plate 22 and the right lens 23R only a relatively small change Lient, which originates from the screen 21 and passes through the plate 22, to the right eye 24 rows. Since the planes of polarization of the plate 22 and the left lens 2JL are cross, the lens 23L acts as a dark filter with respect to the light passing through the plate 22 and the image seen by the viewer's left eye 24-L appears considerably darker. In this example, the polarizing glasses 23 act as a dark filter only for the left eye 24-L, so that the two-dimensional The image that is displayed on the screen 21 is three-dimensional due to the Pulfrich effect Effect is given.

Both lenses 23L, 23R of the polarizing glasses 23 are essentially equally transparent with respect to the non-polarized environment and also with regard to the polarized background light coming from walls, Floor and ceiling and the furniture is reflected in the room in which the observation takes place. Because the planes of polarization of the left lens 23L and the right lens 23R of the glasses 23 are substantially the same Angles from the vertical are inclined, the background light coming from the floor and ceiling, walls and furniture is reflected from the left and right eyes 24-L and 24-E. of the viewer essentially with recorded with the same intensity. The light reflected from the floor and ceiling tends to polarize in horizontal direction, while the light reflected from the walls to polarization in the vertical Direction is leaning. The planes of polarization of the left and right lenses 23L, 23R are therefore preferable

809883/0908

inclined to the vertical by about 4-5, so that almost the same amount of polarized background light that is reflected from the floor and ceiling, is transmitted to the left and right eyes 24L, 24R. Because this polarized or reflected background light and also the non-polarized ambient light transferred equally to the left and right eyes 24L, 24-R the pupils of the left and right eyes are equally dilated and eye fatigue becomes essentially prevented.

Since the lenses 23L, 23R have approximately the same transparency and their planes of polarization are inclined at the same angle to the vertical a viewer can use the polarizing glasses 23 as sunglasses.

It is not necessary that the planes of polarization of the polarizing lenses 23L, 23R of the device by 45 ° are inclined to achieve a three-dimensional effect. It is enough that the angle between the planes of polarization of the left and right lenses 23L, 23E is in the vicinity of 90 degrees. When the angle between the planes of polarization of the plate 22 and the right lens 23L is exactly 90 °, the lens 23L acts as a substantially impermeable filter. The orientation between the planes of polarization of the left lens 23 and the plate 22 is therefore preferably at an angle slightly different from 90 ° is chosen so that the lens 23L attenuates the light passing through the plate 22, but not completely locks.

809883/0908

Figure 2 shows a further embodiment in which the elements which correspond to those described with reference to FIG. 1 have the same reference numerals are provided and are no longer described in detail. The device of Figure 2 differs essentially different from that in FIG. 1 only in that the simple plate 22 has a fixed plane of polarization is replaced by a polarizing device 122, whose plane of polarization is optional Alignment to the plane of polarization of the left lens 23L or the right lens 23R is rotatable. This feature makes it possible to swap the role of the left or right lens 23L, 23R, with im a state of the device 122, the lens 23L, the polarizing device 122, light passing through transmits, while the right lens 23R as a dark filter acts, and in the other state of the "device 122 the lenses 23L or 23R block or transmit light passing through the polarization device. The rotation of the plane of polarization of the device 122 is preferably carried out by a Kerr effect cell 25 reached, which consists of an optically active material that has the plane of polarization of the continuous polarized light as a function of one on opposite electrodes 25a, 25b of the Cell 25 from a control voltage source 26 rotates voltage applied. The source 26 can be the aforementioned Supply voltage as a function of a command signal, which together with a television signal in the event a television signal reproduction or in dependence from a signal recorded on a film in the case of film playback. The Kerr Effect Cell 25 can be made from PLZT (polycrystalline lanthanum modified Lead zirconate titanate) or others

809883/0908

known ferroelectric ceramic materials be.

In the embodiment of Figure 2, the device is not limited to the reproduction of an image, this to the viewer as a result of the Pulfrich effect only appears closer when the image is sideways moves in one direction, and only appears more distant when the image is sideways in the opposite direction Moving direction. In the embodiment of FIG. 2, the left lens 231 or the right lens 2JR can be chosen so that they can be used as Dark filter acts so that it is possible to make the image appear closer or farther away to the viewer as desired allow.

In the embodiment of Figure 1, it is possible achieve almost the same results as previously described when the glasses 23 only the polarization s lens 23L for the left eye 24-L and the Lens 23R omitted or by a non-polarizing glass or other transparent material is replaced. In this case, the polarizing plate 22 and the lens 23L act as a dark filter to prevent the three-dimensional simulation using the Pulfrich effect to achieve; however, the amount of light reaching the left eye 2A-L is essentially equal to the amount of light which reaches the right eye 24-R, so that a Eye fatigue is prevented.

809883 / Ό908

- / it -

Empty soap

Claims (6)

Claims 1. Stereo image viewing device for viewing a two-dimensional, monocular image that is based on
is displayed on a screen, geke η η draws by polarizing means for polarizing light emanating from the monocular displayed image substantially in a single plane, and viewing means through which a viewer views the polarized light and the at least one
having polarizing lens which is arranged between an eye of the viewer and the polarization device and a plane of polarization
which is different from the plane of polarization of the polarizing device. 2. Apparatus according to claim 1, characterized in that the viewing device has another polarizing lens which 809883/0908 ORIGINAL INSPECTED • ■ ~ j «-λ o r \ r \ -i Cs I ö ζ dd ι Ο - 2 - is arranged between the other eye of the viewer and the polarization device and one Has a plane of polarization which is essentially the same as the plane of polarization of the polarization device is. 3 · Device according to claim 2, characterized in that the angle between the planes of polarization the one and the other lens is about 90 °. 4-. Device according to Claim 2, characterized in that the polarization device has a device for rotating the plane of polarization of the polarization device, and the polarization plane of the polarization device to the polarization plane of a selected one Align the lens of one or the other polarizing lens. 5- device according to claim 2, characterized in that the polarization planes of the one and the other polarizing lens are opposite to the vertical by substantially equal angles are inclined. 6. Apparatus according to claim 1, characterized in that the polarization device has a polarizing plate which substantially covers the screen. 809883/0908