JP2022009244A - Display system and image display method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display system that can display an image with less discomfort.

SOLUTION: A display system 100 comprises a curved or bent display panel 110. An image processing unit 120 outputs an image to the display panel 110. The image processing unit 120 can be switched between a first mode for outputting the original image as is to the display panel 110 and a second mode for correcting the original image on the basis of the position of a viewer before outputting the image.

SELECTED DRAWING: Figure 2

COPYRIGHT: (C)2022,JPO&INPIT

Description

The present invention relates to a display system.

In recent years, displays with both ends of the screen curved or bent forward have attracted attention. Such a display is more realistic than a conventional flat display.

However, in the curved / bent display, the displayed figure is distorted in exchange for the presence, and this distortion is further emphasized depending on the viewing position, which gives the viewer a sense of discomfort. 1 (a) and 1 (b) are diagrams illustrating the distortion of a bent display. FIG. 1A is a plan view of the display 10 as viewed from above. FIG. 1B shows a state in which the display 10 of FIG. 1A is viewed from the front. When the rectangle 20 is displayed on the display 10, the portion displayed on the main panel 12 in front of the viewing position can be recognized by the user without discomfort, but the portion displayed on the two side panels 14 and 16 at both ends (the portion displayed on the two side panels 14 and 16 at both ends). The part displayed in (with hatching) looks distorted, causing a sense of discomfort.

On the other hand, depending on the use of the curved or bent display, the accuracy of the displayed figure may be required rather than the presence.

The present invention has been made in view of the above problems, and one of the exemplary purposes of the present invention is to provide a display system capable of displaying an image with less discomfort.

One aspect of the invention relates to a method of displaying an image on a curved or bent display panel. This method includes a step of correcting the original image in consideration of the position of the viewer and a step of displaying the corrected image on the display panel.
According to this aspect, it is possible to present an image with less discomfort.

The correction step may include a step of correcting the original image so that the viewer can see the image when the original image is displayed on a virtual display in which the display panel is extended in a plane. As a result, the image with reduced distortion can be presented to the viewer.

The display panel is curved, and the correction step may include a step of correcting the original image so that shades of color do not occur when the same color is presented. As a result, an image with reduced color unevenness can be presented to the viewer.

The correction step may linearly scale the original image in a bent or curved area of the display panel. This can simplify the arithmetic processing.

The display panel may be divided into a plurality of areas, and a correction step may be performed for each of the divided areas.

Another aspect of the invention relates to a display system. This display system includes a curved or bent display panel and an image processing unit that outputs an image to the display panel. The image processing unit is configured to be switchable between a first mode in which the original image is output to the display panel as it is and a second mode in which the original image is corrected and output based on the position of the viewer.

According to this aspect, it is possible to selectively present an image with less discomfort and an image with a sense of realism.

In the second mode, the image processing unit may correct the original image so that the viewer can see the image when the original image is displayed on the virtual display in which the display panel is extended on a flat surface. This makes it possible to present an image with reduced distortion.

When the display panel is curved, the image processing unit may correct the original image so that shades of color do not occur when the same color is presented. As a result, the image with reduced color unevenness can be reduced to the viewer.

The display panel may be bent. The image processing unit may display an image obtained by linearly scaling the original image in the bent region. This can simplify the arithmetic processing.

The image processing unit may divide the display panel into a plurality of areas and correct the original image for each of the divided areas.

According to an aspect of the present invention, it is possible to display an image with less discomfort.

1 (a) and 1 (b) are diagrams illustrating the distortion of a bent display. It is a figure which shows the display system. It is a figure which shows the image display in the 1st mode. It is a figure explaining the correction about a bent panel. It is the figure which looked at the display from the front in the 2nd mode. It is a figure explaining the simplified correction. It is a figure explaining the correction about a curved panel. It is a figure explaining the example of another correction with respect to another curved panel. It is a figure which shows the display system which concerns on the 1st modification. It is a figure explaining the correction which concerns on the 2nd modification.

Hereinafter, the present invention will be described with reference to the drawings based on the preferred embodiments. The same or equivalent components, members, and processes shown in the drawings shall be designated by the same reference numerals, and duplicate description thereof will be omitted as appropriate. Further, the embodiment is not limited to the invention, but is an example, and all the features and combinations thereof described in the embodiment are not necessarily essential to the invention.

FIG. 2 is a diagram showing a display system 100. The display system 100 includes a display panel 110 and an image processing unit 120. The display panel 110 is at least partially curved or bent. FIG. 2 shows a bent panel.

The image processing unit ₁₂₀ receives the original image S1 and outputs it to the display panel 110. The image processing unit 120 is configured so that the first mode and the second mode can be switched. In the first mode, the image processing unit ₁₂₀ outputs the original image S1 to the display panel 110 as it is. That is, the image S ₂ input to the display panel 110 is the same as the original image S ₁ in the first mode, and is a corrected image of the original image S ₁ in the second mode.

In the second mode, the image processing unit ₁₂₀ corrects and outputs the original image S1 based on the position (viewing position) of the viewer (user). The correction in the second mode of the image processing unit 120 is intended to reduce the discomfort of the viewer.
(I) Reduction of graphic distortion (ii) At least one of reduction of color unevenness.

FIG. 3 is a diagram showing an image display in the first mode. FIG. 3 shows a plan view of the display panel 110 as viewed from above. For ease of understanding, the number of pixels is shown to be smaller than the actual panel. It is assumed that 12 pixels are allocated horizontally to the front portion of the display panel 110, and 8 pixels are allocated horizontally to the left and right portions at equal intervals. When the horizontal resolution of the original image S ₁ is (12 + 8 + 8) = 28 pixels, in the first mode, the original image S ₁ is mapped to the display panel 110 dot-by-dot. Therefore, all pixels of the display panel 110 are fully used.

FIG. 4 is a diagram illustrating a correction for a bent panel. FIG. 4 shows a plan view of the display panel 110 as viewed from above. Reference numeral 112 indicates a virtual panel in which the display panel 110 is extended in a plane. _The image processing unit ₁₂₀ corrects the original image S1 and displays it on the display panel 110 so that the image when the original image S1 is mapped to the virtual panel 112 can be seen from the position 114 of the viewer.

Specifically, among the pixels of the virtual panel 112, the pixel P _i'that intersects the pixel P _i and the straight line _li passing through the viewing position 114 may be mapped to any pixel P _i on the display panel 110. .. In the second mode, since the corresponding virtual panel 112 pixel does not exist in the pixels (with a hatch) included in both ends, nothing is displayed.

The mapping from the virtual panel 112 to the display panel 110 can be geometrically calculated based on the viewing position 114, the bending angle θ of the display panel 110, and the like.

Although only the horizontal correction (mapping) is shown in FIG. 4, the same correction may be performed in the vertical direction as well.

FIG. 5 is a front view of the display panel 110 in the second mode. The same rectangle 20 as in FIG. 1B is displayed on the display panel 110. In FIG. 1 (b), the rectangle 20 was distorted in the portions of the side panels 14 and 16, but by correcting the second mode, as shown in FIG. 5, the side panels 110L and 110R were distorted. In the portion, the distortion of the rectangle 20 is reduced. As described above, according to the display system 100 according to the embodiment, it is possible to present an image with less discomfort.

However, if an attempt is made to perform exact mapping by this method, the calculation becomes complicated and the cost of the image processing unit 120 may increase. Therefore, a simplified correction may be performed as described below.

FIG. 6 is a diagram illustrating a simplified correction. It is assumed that the widths of the pixels are equal and the lengths on the display panel 110 and the virtual panel 112 are normalized by the widths of the pixels. At this time, the length on the panel corresponds to the number of pixels. In FIG. 6, p pixels are arranged on the virtual panel 112, and therefore the length of the virtual panel 112 is represented as p.

Let Q be the intersection of the straight line L connecting the end point P of the virtual panel 112 and the viewing position 114 and the display panel 110. At this time, let q be the length (number of pixels) of the line segment OQ. The angle θ formed by the display panel 110 and the virtual panel 112 is a design value. Further, the angle γ formed by the virtual panel 112 and the straight line L is determined according to the viewing position 114.

The length X of the perpendicular line drawn from the point Q to the virtual panel 112 is X = qsinθ. Since the length of the line segment Q'O is qcosθ, the length of the line segment PQ'is p−qcosθ. Therefore, the length X of the perpendicular line drawn from the point Q to the virtual panel 112 is expressed as X = (p−qcosθ) × tanγ, and the following relational expression is obtained.
qsinθ = (p−qcosθ) × tanγ… (1)
Solving this for q,
q = ptanγ / (sinθ + cosθ)… (2)
Alternatively, where the length of the line segment PQ is r, q is expressed by the equation (3) from the cosine theorem.
q = √ (r ² + p ² -2 rp · cos θ)

That is, the p pixels on the virtual panel 112 are mapped to the q pixels on the display panel 110. When the pixel on the display panel 110 is the first point O, the point Q is the qth, the pixel on the virtual panel 112 is the first point O, and the point P is the pth, the i-th on the display panel 110. The _j (= i × p / q) th pixel p'j on the virtual panel 112 may be mapped to the pixel p _i .

That is, the image processing unit 120 may display an image obtained by linearly scaling the original image in the bent region by using the parameter p / q obtained geometrically. In this case, some distortion remains as compared with the strict mapping of FIG. 4, but in exchange for that, the arithmetic processing can be remarkably simplified.

FIG. 7 is a diagram illustrating a correction for a curved panel. The basic processing is the same as that of the bending panel shown in FIG. 4, and for any pixel _Pi on the display panel 110, among the pixels of the virtual panel 112, the pixel _Pi and the straight line _li passing through the viewing position 114 The mapping is mapped to the pixel P _i'that intersects with.

Curved panels may also be mapped by simple scaling, as shown in FIG. Specifically, the _j (= i × p / q) th pixel p'j on the virtual panel 112 may be mapped to the i-th pixel p _i on the display panel 110.

When the display panel 110 is curved, shades of color may occur when the same color is presented in the curved portion and the flat portion. Specifically, the number of pixels (density) included in a certain length is high in a place where the curve is strong, so that the color looks dark. Therefore, the image processing unit 120 may correct the original image so that the shading of the color is suppressed.

FIG. 8 is a diagram illustrating another example of correction for another curved panel. In this example, the panel includes a portion curved at θ = 90 degrees, and the virtual panel 112 is bent so as to circumscribe the arc portion of the display panel 110. When the panel is an arc, if the arc portion is the number of pixels q, the length p of one side of the virtual panel 112 circumscribing the arc is p = q / 2π.

When the number of pixels (length) of the straight line portion of the display panel 110 is r and the length of the straight line portion of the virtual panel 112 is s, the following relational expression holds.
r + q = 2 × p + s = q / π + s
Therefore, the length s is
s = r- (1-1 / π) q
Will be.

The image processing unit 120 can divide the display panel 110 into a plurality of areas and perform correction for each of the divided areas. In this example, the display panel 110 is divided into a first region corresponding to the arc portion q and a second region corresponding to the straight line portion r. For the first region, mapping may be performed by the method described with reference to FIG. 7. Regarding the second region, the pixels of the region s may be mapped to the portion of the region r that is not hatched as it is.

The first region may be mapped by simple scaling. The length of the arc (the number of pixels) is q, and the length of the rectangular portion circumscribing it is p × 2. Therefore, the j (= i × 2p / q) th pixel P _i ′ on the virtual panel 112 may be mapped to the i-th (1 ≦ i ≦ q) pixel P _i of the display panel 110.

The present invention has been described above based on the embodiments. It is understood by those skilled in the art that this embodiment is an example, and that various modifications are possible for each of these components and combinations of each processing process, and that such modifications are also within the scope of the present invention. be. Hereinafter, such a modification will be described.

(First modification)
FIG. 9 is a diagram showing a display system 100A according to the first modification. The display system 100A includes a position detection unit 130 in addition to the display panel 110 and the image processing unit 120. The configuration and principle of the position detection unit 130 are not particularly limited, and known techniques may be used. For example, the position detection unit 130 may include a camera and detect the position 114 of the viewer based on the captured image. The position information _S3 indicating the position 114 is input to the image processing unit 120. The image processing unit 120 reflects the position information _S3 in the correction processing in the second mode. As a result, even when the viewer moves, it is possible to present an image with less discomfort.

(Second modification)
FIG. 10 is a diagram illustrating a correction according to the second modification. When the display panel 110 is a curved panel, various modifications can be considered for the shape of the virtual panel 112. For example, as shown in FIG. 10, the virtual panel 112 may be arranged along two straight lines 116 and 117 circumscribing the arc portion.

(Third modification example)
In the embodiment, the display system in which the first mode and the second mode can be switched has been described, but the system may be operated by fixing to the second mode.

The present invention has been described using specific terms and phrases based on the embodiments, but the embodiments merely indicate the principles and applications of the present invention, and the embodiments are defined in the claims. Many modifications and arrangement changes are permitted within the scope of the above-mentioned idea of the present invention.

100 ... Display system, 110 ... Display panel, 112 ... Virtual panel, 114 ... Viewing position, 120 ... Image processing unit, 130 ... Position detection unit.

Claims (4)

A method of displaying an image on a curved display panel.
A step of defining a virtual panel along two straight lines circumscribing the curved portion of the curved display panel,
A step of mapping the original image to the curved display panel so that the viewer can see the image when the original image is displayed on the virtual panel.
How to prepare. The method according to claim 1, further comprising a step of correcting the original image so that shades of color do not occur in the curved display panel when the same color is displayed. With a curved display panel,
An image processing unit that outputs an image to the curved display panel,
Equipped with
A virtual panel is defined along two straight lines circumscribing the curved portion of the curved display panel.
The image processing unit is a display system that maps the original image to the curved display panel so that the viewer can see the image when the original image is displayed on the virtual panel. The display system according to claim 3, wherein the image processing unit corrects the original image so that shades of color do not occur in the curved display panel when the same color is displayed.

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