DE4004739A1 - Optical system for stereoscopic information display - uses left and right hand light sources activated in alternation for illuminating display - Google Patents

Abstract

The optical system has a lens element (2) between left and right light sources and the observer and a transreflective information carrier lying within the aperture stop of the lens element (2). Pref., the information carrier comprises 1 c.d. (3) controlled by a processor. The lens element comprises a rectangular hologram lying in a parallel phase. The two light sources (4, 5) respecting provide a planar image half for the left and right eye, viewed together to provide to stereoscopic image, upon alternate ON-OFF switching of the light sources. USE/ADVANTAGE - Real-time display viewed by aircraft pilot or vehicle driver. Compact with limited length expansion.

Description

The invention relates to an optical system for stereoscopic Representation of information with an optical element Lens function, a light source and with at least one partially transparent flat information carriers.

Optical systems for displaying information and also for stereoscopic representation of information that an acommo dation-free viewing especially for pilots in the air and allow space travel and vehicle drivers to differ Lichen embodiments known. A disadvantage of known systems however, is that this is a large and particular also require long installation space in vehicles and missiles is absent in most cases.

The object of the invention is therefore an optical system to create the type specified, in particular with low longitudinal expansion can be realized in a small space.

According to the invention, this object is achieved with an optical system of the generic type solved in that on the Viewer opposite side of the optical element two  Light sources are arranged and the information carrier in the Area of the aperture of the optical element is that Both light sources are arranged so that one is flat Field for the left and the other a flat field for the right eye creates, with both fields a stereo image result, and that the light sources alternate with a frequency be turned on and off for the viewer generate flicker-free image, and that in time with the switching of the Light sources alternate with fields on the information carrier Information for the left and right eye is generated.

The optical system according to the invention can be used in simple way in a very small space, which is basically need not be deeper than 3 cm, a stereoscopic Achieve information presentation. The stroboscopic in Clock of the frame rate switched light sources affect the left eye and the right eye the frame rate is not less than 18 Hertz should to avoid flickering of the picture. The together fields resulting in a stereo image are in time with the Frame rate generated on the information carrier, so that the left and the right eye each assigned to it Field sees.

The information carrier is located in the aperture diaphragm of the optical element, this is not enlarged. Is however, the information carrier can be enlarged with the changing image information for the left and the right Eye arranged at the appropriate distance from the aperture diaphragm be.

In order to offer the viewer a large picture, is after one inventive development provided that several optical  Elements with two light sources and information carriers in each Rows and columns form a field, with each picture element this image matrix in the manner described stoboscopically is illuminated and in time with the switching of the light sources Fields for the left and right eye are generated. Each Picture element of the field is with the switching frequency of Light sources alternate from the left and right eyes considered.

The optical elements can be simple lenses or else Be holograms with lens function.

According to a particularly advantageous embodiment of the invention the information carriers consist of liquid crystal displays (LCD). The information can be found on the liquid crystal displays in any way with the required alternating frequency be generated. It is expedient to generate the a computer uses the desired display pattern.

According to the eye relief of the viewer (the middle one Eye relief is 6.5 cm) is the field of view limited stereoscopic vision. In a further embodiment of the Invention is therefore provided that the light sources in horizontal direction widened or multiple light sources are provided, the left and right eye, respectively assigned. The broadening of the light source leads to that when the viewer's head is moved sideways this does not lose the picture so quickly. Of course it can happen that he sees only one field with both eyes. Because of the sluggishness of the eyes and some However, the memory effect remains the impression of a stereo image get that is refreshed when the viewer in between the other field with the right eye.  

If several light sources are provided, the fields can can be arranged side by side so that the viewer at pairs of fields associated with moving the head detected.

According to a particularly advantageous embodiment, that optionally only one image is generated and this by both Light sources simultaneously or from a single additional light source is illuminated. This type enables a two-dim sionales instead of 3D vision. If there is a 2D representation, can also on the stroboscopic illumination of the image to be dispensed with.

The optical system according to the invention thus enables three to generate dimensional scenes without additional tools can be seen with the naked eye. That's the way it is for example possible x-rays on the liquid crystal display and consider spatially. You can do that X-ray images implemented in this way, for example, using a computer be that these on the liquid crystal display as of each eye can be shown detectable fields, the one Stereo image result.

The optical system according to the invention can not only be used for Pilots and drivers use, but also for simulators.

It is possible to take the pictures by infrared cameras and then prepare on computer so that they are in the optical System displays a stereoscopic image in real time surrender. This enables orientation, for example thick fog.  

Computer generated images can also be generated by video cameras serve captured images.

An embodiment of the invention is described below the drawing explained in more detail in the only figure optical system according to the invention is shown schematically.

Rectangular holograms 2 with a lens function, which form the optical elements, are arranged in rows and columns in a field-shaped matrix 1 . A liquid crystal display 3 is assigned to each individual optical element 2 , the individual liquid crystal displays 3 being arranged in a plane parallel to the optical elements 2 . Each individual optical element and the associated liquid crystal display of approximately the same shape are assigned two light sources 4 , 5 , of which the light source 4 acts on the visual field 6 for the right eye and the light source 5 affects the visual field 7 for the left eye.

Individual image parts are generated on the liquid crystal displays in such a way that the entire field of optical elements and liquid crystal displays result in composite fields for the left and right eyes. The fields to be displayed are generated on the liquid crystal displays 3 by a computer 9 .

If the light sources 4 , 5 are broadened in the horizontal direction, the visual fields for the left and right eyes can be broadened into the dashed area 6 'and 7 '.

The light sources 4 , 5 , of which only two are shown for the upper left element of the matrix field, are switched on and off stroboscopically in such a way that the left and right eyes are acted upon alternately, with fields for the left and right eye are generated. The switching and frame rate is at least 18 Hertz to avoid a noticeable flicker. The light sources can be light-emitting diodes or flash lamps.

The liquid crystal displays 4 are also capable of producing the desired fields at the required frame rate.

The liquid crystal displays are illuminated via conventional or holographic optical elements (e.g. holographic focusing screen or lenticular grid) in the way that the information in the two exit hatches be mapped. The light sources are arranged so that one aspect each from a light source or from one Arrangement of multiple light sources and the other aspect of the other light source is illuminated. This creates how described, a spatial image for the viewer.

It is also possible to look through the images Generate reflection from a monitor.

By suitably arranging several light sources to the individual images arranged in a grid or matrix elements, there is an extremely low overall depth to reach.

The installation depth that can be achieved depends on the opening angle of the optical elements. The larger this angle can be made the lower the installation depth. By the described  Decomposition of the object level into many smaller areas, which in their composition can result in a field, the installation depth be kept extremely low.

Claims (7)

1. Optical system for the stereoscopic display of information with an optical element with lens function, a light source and with an at least partially transparent flat information carrier, characterized in that
that two light sources are arranged on the side of the optical element opposite the viewer and the information carrier is located in the area of the aperture diaphragm of the optical element,
that both light sources are arranged so that one produces a flat field for the left eye and the other produces a flat field for the right eye, both fields producing a stereo image,
that the light sources are switched on and off alternately at a frequency which produces a flicker-free image for the viewer, and that, in time with the switching of the light sources, fields with information for the left and right eyes are alternately generated on the information carrier. 2. Optical system according to claim 1, characterized in that that the information carrier with the changing image information mations for the left and right eye in the aperture aperture or according to the desired magnification in Distance from the aperture diaphragm is arranged. 3. Optical system according to claim 1 or 2, characterized records that several optical elements, each with two Light sources and information carriers in rows and columns are arranged and a field generating an overall image form. 4. Optical system according to one of claims 1 to 3, characterized characterized in that the optical elements with holograms Are lens function. 5. Optical system according to one of claims 1 to 4, characterized characterized in that the information carrier liquid crystal displays (LCD). 6. Optical system according to one of claims 1 to 5, characterized characterized in that widened in the horizontal direction or several light sources are provided, each of which left or right eye. 7. Optical system according to one of claims 1 to 6, characterized characterized that only one image is generated and this by two light sources simultaneously or from only one Additional light source is illuminated.