DE102005010974A1 - Sweet-spot-unit for e.g. auto-stereoscopic display, has vertical dispersing optical unit arranged between imaging unit and image matrix, where imaging matrix and imaging unit are arranged inclined against optical unit and image matrix - Google Patents

Abstract

The unit has a lighting matrix (BM) with a set of controllable lighting units, and imaging unit (AM), where the light is modulated in an image matrix (M) with imaging information and is imaged in sweet-spots on a viewer`s eye. A vertical dispersing optical unit (S) is arranged between the imaging unit and the image matrix. The lighting matrix and the imaging unit are arranged inclined against the optical unit ad the image matrix.

Description

Territory of invention

The The invention relates to a sweet-spot unit for a display for displaying information, to light with the information in sweet spots on viewer eyes for at least to depict a viewer.

field of use The invention is monoscopic displays for single or multiple viewers and autostereoscopic displays for single or multiple viewers (Multi-user), taking in the multi-user displays for each Viewer another image content can be displayed. In autostereoscopic Multi-user displays can the viewers either choose the different image contents either in 2D or 3D mode.

When autostereoscopic displays are referred to in the document displays, where at least one viewer from random places on the information panel can see 3D content without any additional tools.

The Sweet spot unit comprises in the propagation direction of the light Illumination matrix with a variety of regularly arranged self-luminous or translucent lighting elements and subsequent Imaging means with optical imaging elements.

at Autostereoscopic displays penetrate the light of the sweet spot unit large area the in the propagation direction of the light following image matrix. The light for the left sweet spots with the left images and the right one Sweet spots modulated with the right images and on the left or right eyes of the viewer focused. It may neither crosstalk on the other eye still a disturbance of the homogeneity of the pictures occur on the image matrix when the display from the sweet spots, the Areas of non-intercommunication stereoscopic vision, is looked out.

The Pictures or video sequences can in transmissive form, for example, as a radiated panel or in reflective form. An important application The invention is displays in which different for the viewer Information such as the driver of a vehicle, the information about the track can be faded in while his passenger is one Movie looks.

The Imaging elements of the imaging agents may be spherical or aspherical Lens elements, holographic-optical elements (HOE) or in the light direction with or combined with each other, stacked arranged optical imaging elements be of any kind. The imaging agents are often by lenticular usually realize and have a very small pitch. For sweet spot units are usually pitch and position of the imaging elements in relation precisely defined on the illumination matrix and a multiple of the Pixel pitches the Image matrix.

In a simple solution the lighting matrix is realized by a backlight as well as a shutter. The shutter has a plurality of regularly arranged controllable openings and exemplifies a monochrome LCD display. Another embodiment is a matrix of self-luminous pixels, such as LEDS, OLEDs, DMDs, micro-mirror devices or the like.

such Lighting devices in autostereoscopic displays are known for a long time.

Hereinafter, obvious embodiments will be explained in summary. EP 079 1 847 B1 describes an autostereoscopic display with tilted elements. It contains an image matrix with image pixels arranged in rows and columns. It further includes a lenticular with parallel lenticules that are inclined with respect to the pixel columns of the image matrix.

When Advantage is to be achieved that the optical effects of Shadowing between the pixel columns of the image matrix is reduced become. These shadows are caused, for example, by the wiring the pixel evoked. The direction of shading is through the inclination of the lenticular is no longer parallel to the direction of the Lenticle, so for the viewer the otherwise visible, vertical darker Lines can be eliminated.

By However, this tendency is in this arrangement, the risk that the desired extent and quality the generated sweet spots are not achieved.

in the Furthermore autostereoscopic displays are known, which between the lenticular and the image matrix have a scattering element, whereby diverse Problems solved become.

RU 2 231 097 C1 describes an autostereoscopic display with a scattering element, which is arranged in the direction directly behind the display (original transparency) and the light finally spreads in a vertical direction. The scattering element is intended to expand the vertical extent of the area of autostereoscopic vision.

EP 141 3 149 A1 also describes an autostereoscopic display with a scattering element arranged at the same location, which, however, serves here for switching between a two-dimensional and three-dimensional representation.

The quality The optical imaging depends, among other things, on whether it is possible to homogeneously illuminate the image matrix and the sweet spots.

A important requirement for the Sweet Spot unit, in particular the Imaging agent is the most possible homogeneous illumination of the image matrix and the sweet spot. To the vertical seams of the imaging elements occur especially due to spherical aberrations to areas of inhomogeneous illumination of the image matrix, which is from Viewers are seen as vertical light and dark lines can be. These inhomogeneous structures are generally distracting.

These negative impact on image quality affects in particular the Arranged in the cited documents arrangements, so lenticular with vertically arranged lenticles in the form of cylindrical lenses.

Task of invention

It The object of the invention is that the sweet-spot unit forms the image matrix Homogeneous and eliminates the aforementioned inhomogeneous structures. At the same time it must be ensured that the sweet spots in their Geometry and high quality do not interfere are.

Summary the invention

According to the invention, the sweet-spot unit contains a vertically scattering optical element, hereafter short referred to as scattering element. The scattering element is between the imaging means and the image matrix arranged.

Further According to the invention, the illumination matrix and / or the imaging means relative to the scattering element and the Image matrix slightly to the optical axis arranged inclined.

In a particularly preferred embodiment is the illumination matrix together with the imaging means in the same angle to the Scattering element and the image matrix arranged inclined about the optical axis.

Of the Invention is based on the idea that the areas inhomogeneous Illumination of the image or the image matrix, which is from the Viewer as vertical, alternately light and dark Lines are recognizable, now slightly inclined to the scattering element incident. Furthermore, by the scattering element, a vertical homogenization, so that a nearly homogeneous illumination of the image matrix is achieved becomes.

The achieved by the inventive arrangement Controlled homogenization is determined by the scattering angle of the spreading element, its distance to the image matrix and the tilt angle of the above Precise elements controllable.

This especially concerns crosstalk. By the exclusively vertical homogenization, the sweet spots are not affected. They remain without additional crosstalk preserved in their geometry.

In a first preferred embodiment the scattering optical element is a vertically acting scattering film. More embodiments are constructed analogously to the imaging means.

Short description the figures

The explain the following figures a continuing one embodiment the sweet spot unit according to the invention as a supporting part of an autostereoscopic display and show in

1 a sweet-spot unit according to the invention and

2 a diagrammatic representation of a luminance distribution achieved by the sweet-spot unit according to the invention on the image matrix.

1 shows a sweet-spot unit as part of an autostereoscopic display.

The The display comprises a lighting matrix in a first part in the light direction BM with a variety of regularly arranged Lighting elements. The illumination matrix is not self-luminous here realized, but consists of a backlight as a light source and a variety of matrix form arranged openings having shutter for the controlled light transmission.

It follows an imaging means AM with optical imaging elements, which here as a lenticular with a variety of vertically arranged contiguous lenticule L1, L2, .. in the form of cylindrical lenses is realized.

The Light from the sweet-spot unit is shown in the following image matrix M modulated with image information and in sweet spots on observer eyes at least one viewer.

Between the imaging means AM and the image matrix M is a vertically scattering arranged optical element S. This element is here as scattering foil realized.

Further is the illumination matrix BM and the imaging means AM opposite to the vertically scattering optical element S and the image matrix M slightly with a few degrees about the optical axis inclined. The Inclination of these elements is illustrated in the figure by the inclination angle α and enhanced for better visibility.

The Figure shows the regions of inhomogeneous luminance of the sweet-spot unit, the user as a result of vertical light and dark Lines a (I) are recognizable. This lineage runs in the Rule according to the periodic structures of the imaging elements and is over the whole area the image matrix M recognizable. These lines a (I), in particular due to the spherical aberrations arise at the edge region of the imaging elements or lenticles, meet as shown in the illustration, slightly inclined to the Scattering film S.

The vertically acting scattering foil S and the slight inclination of the elements AM and BM together achieve a vertical homogenization of these Line structures. As shown in the figure, the dark ones Structures a (I) by the vertical homogenization in the line structures a (s) transferred. The achieved line structures a (s) are barely recognizable to the viewer. The image matrix M is homogeneously illuminated and the quality of the optical Figure is visibly improved. By the exclusively vertical Homogenization, the sweet spots are not affected and stay in their geometry. An additional crosstalk does not occur.

2 shows a diagram of a section of the course of the luminance distribution in the image matrix along a horizontal section.

In particular, the diagram shows the luminance distribution of a prior art arrangement as compared to the arrangement according to the invention 1 ,

at This arrangement according to the prior art are all optical Elements, ie the illumination matrix, the imaging means and the image matrix, vertically aligned without inclination.

The Here achieved luminance distribution is in the figure by a shown lighter line. It shows as the first characteristic inhomogeneity the drop in luminance distribution caused by light rays which passes through the junction of two lenticular L1 and L2 and hit the image matrix. Furthermore, the inhomogeneous luminance through the strongly changing Function values visible.

In the 1 explained sweet spot unit achieved on the image matrix in the representation increasingly represented homogeneous luminance distribution. In addition to the smoothed curve, it can be seen in particular that the drop in the luminance distribution at the seam is sufficiently eliminated. As desired, the dark lines are no longer recognizable to the user.

Claims (7)

Sweet spot unit, in particular for an autostereoscopic display, wherein the sweet spot unit contains a lighting matrix (BM) with a plurality of controllable lighting elements and imaging means (AM) with optical imaging elements, and the light in the subsequent image matrix (M) Image information is modulated and displayed in sweet spots on viewer eyes of at least one observer, characterized in that the sweet spot unit comprises a vertically scattering optical element (S) which is arranged between the imaging means (AM) and the image matrix (M) , and the illumination matrix (BM) and / or the imaging means (M) are arranged slightly inclined with respect to the scattering optical element (S) and the image matrix (M) about the optical axis. Sweet spot unit according to claim 1, characterized that the illumination matrix (BM) together with the imaging means (AM) opposite the vertically scattering optical element (S) and the image matrix (M) slightly is arranged inclined at the same angle about the optical axis. Sweet spot unit according to claim 1, characterized that the illumination matrix (BM) and the imaging means (AM) are opposite to the vertically scattering optical element (S) and the image matrix (M) each slightly arranged at different angles inclined about the optical axis are. Sweet spot unit according to claim 1, characterized in that the vertically scattering optical element (S) is a scattering film is. Sweet spot unit according to claim 1, characterized that the vertically scattering optical element (S) with a lenticular combined with horizontally oriented lenticles. Sweet spot unit according to claim 1, characterized in that the imaging means (AM) comprise a plurality of vertically arranged ones Include imaging elements. Sweet spot unit according to claim 6, characterized that the imaging means (AM) at least one lenticular with vertical aligned lenticles.