CN111081149B - Display method and display device - Google Patents

Abstract

The application discloses a display method and a display device, wherein a first ellipse is used for fitting an arc-shaped boundary of the display device, a second ellipse with a long axis length smaller than that of the first ellipse is obtained by using a focus of the first ellipse, a first curve close to the arc-shaped boundary on the first ellipse and a second curve close to the arc-shaped boundary on the second ellipse are determined according to a tangent point of the first ellipse and the arc-shaped boundary, a gray scale coefficient of a pixel to be processed is determined according to the position of the pixel to be processed relative to the first curve and the second curve, then an original gray scale value of the pixel to be processed is multiplied by a gray scale coefficient corresponding to the pixel to be processed to obtain a target gray scale value of the pixel to be processed, and the target gray scale value of the pixel to be processed is displayed so as to solve the problem that the saw-tooth phenomenon easily occurs when the arc-shaped boundary of the display device is displayed and the display quality is affected.

Description

Display method and display device

Technical Field

The present disclosure relates to the field of display technologies, and in particular, to a display method and a display device.

Background

Nowadays, while people continuously improve their own quality of life, aesthetic requirements are also continuously changing. The curved edges give a feeling of rounding to the display, and thus many rectangular displays have been popular with the added design of rounded corners. Generally speaking, the circular arc that increases is realized through cutting the polishing to panel edge, and cooperation edge transition technique makes its vision more mellow and smooth, and its shape accords with a part of intercepting back circle. However, in combination with actual line arrangement and pixel placement, when the pixels are arranged, the circular arc display can be realized only by making the number of pixels in some rows or some columns unequal, which may cause jagged edges of the pixel display and affect the quality of the image display.

Disclosure of Invention

The embodiment of the application provides a display method and a display device, which can solve the problem that when the display device with an arc-shaped boundary displays an image, a sawtooth phenomenon occurs on the arc-shaped boundary, and the image display quality is influenced.

An embodiment of the present application provides a display method, which is used in a display device, where the display device at least has a display area, the display area at least has an arc-shaped boundary, and the arc-shaped boundary has a start point and an end point, and the display method includes the following steps:

a first tangent line of the arc boundary and a first perpendicular line perpendicular to the first tangent line are made by the starting point, a second tangent line of the arc boundary and a second perpendicular line perpendicular to the second tangent line are made by the end point, an intersection point of the first perpendicular line and the second perpendicular line is a first intersection point, a first ellipse is determined by using pixels in an image to be displayed corresponding to the first intersection point, the first perpendicular line, the second perpendicular line and a plurality of pixels in the image to be displayed corresponding to an area on the first ellipse, which is enclosed by a first curve close to the arc boundary, are pixels to be processed, a second ellipse is determined according to a focus of the first ellipse, the length of a long axis of the second ellipse is smaller than that of the long axis of the first ellipse, and the first curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the first ellipse;

determining a gray scale coefficient of each pixel to be processed according to the positions of the pixel to be processed relative to a first curve on the first ellipse close to the arc-shaped boundary and a second curve on the second ellipse close to the arc-shaped boundary, wherein the second curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the second ellipse;

correspondingly multiplying the original gray scale value of the pixel to be processed by the gray scale coefficient to obtain a target gray scale value of the pixel to be processed;

and displaying according to the target gray-scale value of the pixel to be processed.

In some embodiments, the focus comprises a first focus and a second focus, the gray scale of the pixel to be processed is determined according to the distance from the pixel to be processed to the focus, and the distance from the pixel to be processed to the focus is equal to half of the sum of the distances from the pixel to be processed to the first focus and the second focus.

In some embodiments, a half of a sum of distances from the pixel to be processed to the first focus and the second focus is less than or equal to a length of a major axis of the second ellipse, a gray scale coefficient of the pixel to be processed is 1, and the pixel to be processed is displayed according to an original gray scale.

In some embodiments, a half of a sum of distances from the pixel to be processed to the first focus and the second focus is greater than a length of a major axis of the second ellipse and less than or equal to a length of a major axis of the first ellipse, and the grayscale coefficient of the pixel to be processed is a ratio of the distance from the pixel to be processed to the second ellipse to the distance from the first ellipse to the second ellipse.

In some embodiments, half of the sum of the distances from the pixel to be processed to the first focal point and the second focal point is greater than the length of the major axis of the first ellipse, and the gray scale coefficient of the pixel to be processed is 0.

In some embodiments, the length of the major axis of the first ellipse differs from the length of the major axis of the second ellipse by 1-3 pixel sizes.

In some embodiments, the first ellipse and the arcuate boundary have a first tangent point that coincides with the starting point and a second tangent point that coincides with the ending point.

In some embodiments, the pixel in the image to be displayed corresponding to the first intersection point is at least one pixel size away from the focus of the first ellipse.

In some embodiments, the target gray scale value of the pixel to be processed near the arc-shaped boundary is less than the target gray scale value of the pixel to be processed far from the arc-shaped boundary.

An embodiment of the present application further provides a display device, where the display device includes:

a to-be-processed pixel obtaining module, configured to use the starting point as a first tangent line of the arc boundary and a first perpendicular line perpendicular to the first tangent line, taking the end point as a second tangent line of the arc boundary and a second perpendicular line perpendicular to the second tangent line, wherein the intersection point of the first perpendicular line and the second perpendicular line is a first intersection point, determining a first ellipse by using pixels in the image to be displayed corresponding to the first intersection point, wherein a plurality of pixels in the image to be displayed corresponding to an area enclosed by the first vertical line, the second vertical line and a first curve on the first ellipse close to the arc-shaped boundary are pixels to be processed, determining a second ellipse from the focus of the first ellipse, the length of the major axis of the second ellipse being less than the length of the major axis of the first ellipse, the first curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the first ellipse;

a grayscale coefficient obtaining module, configured to determine a grayscale coefficient of each pixel to be processed according to positions of the pixel to be processed relative to a first curve on the first ellipse close to the arc-shaped boundary and a second curve on the second ellipse close to the arc-shaped boundary, where the second curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the second ellipse;

the target gray scale value acquisition module is used for correspondingly multiplying the original gray scale value of the pixel to be processed by the gray scale coefficient to obtain a target gray scale value of the pixel to be processed;

and the display module is used for displaying according to the target gray-scale value of the pixel to be processed.

The display method and the display device provided by the embodiment of the application are used in the display device, the display device at least has a display area, the display area at least has an arc-shaped boundary, the arc-shaped boundary has a starting point and an end point, the starting point is used as a first tangent of the arc-shaped boundary and a first perpendicular to the first tangent, the end point is used as a second tangent of the arc-shaped boundary and a second perpendicular to the second tangent, the intersection point of the first perpendicular and the second perpendicular is a first intersection point, the first intersection point corresponds to a pixel in an image to be displayed to determine a first ellipse, the first perpendicular, the second perpendicular and a plurality of pixels in the image to be displayed in an area enclosed by a first curve close to the arc-shaped boundary on the first ellipse are pixels to be processed, the second ellipse is determined according to the focus of the first ellipse, the length of the long axis of the second ellipse is smaller than that of the long axis of the first ellipse, and the first curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the first ellipse; determining a gray scale coefficient of each pixel to be processed according to the positions of the pixel to be processed relative to a first curve on the first ellipse close to the arc-shaped boundary and a second curve on the second ellipse close to the arc-shaped boundary, wherein the second curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the second ellipse; correspondingly multiplying the original gray scale value of the pixel to be processed by the gray scale coefficient to obtain a target gray scale value of the pixel to be processed; and displaying according to the target gray scale value of the pixel to be processed so as to solve the problem that the display device is easy to generate a saw-tooth phenomenon at the arc boundary when displaying and influences the display quality.

Drawings

The technical solution and other advantages of the present application will become apparent from the detailed description of the embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is a flowchart of a display method provided in an embodiment of the present application;

fig. 2A is a schematic structural diagram of a display device according to an embodiment of the present disclosure;

fig. 2B is a partially enlarged view of the portion i in fig. 2A.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be construed as limiting the present application. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Specifically, please refer to fig. 1, which is a flowchart illustrating a display method according to an embodiment of the present disclosure; fig. 2A is a schematic structural diagram of a display device according to an embodiment of the present disclosure, and fig. 2B is a partial enlarged view of a portion i in fig. 2A.

The embodiment of the present application provides a display method, which is used in a display device 200, wherein the display device 200 at least has a display area 200a, the display area 200a at least has an arc-shaped boundary 201, the arc-shaped boundary 201 has a start point 201a and an end point 201b, and the display method includes the following steps:

a first tangent 201c of the arc-shaped boundary 201 and a first perpendicular 2011 perpendicular to the first tangent 201c are made by using the starting point 201a, a second tangent 201d of the arc-shaped boundary 201 and a second perpendicular 2012 perpendicular to the second tangent 201d are made by using the ending point 201b, an intersection point of the first perpendicular 2011 and the second perpendicular 2012 is a first intersection point O, a first ellipse 202 is determined by using a pixel in the image to be displayed corresponding to the first intersection point O, and a plurality of pixels in the image to be displayed corresponding to an area on the first ellipse 202, which is enclosed by a first curve 2021 close to the arc-shaped boundary 201, of the first perpendicular 2011, the second perpendicular 2012 and a plurality of pixels in the image to be displayed are pixels p to be processed; determining a second ellipse 203 according to the focus F of the first ellipse 202, the length a2 of the major axis of the second ellipse 203 being smaller than the length a1 of the major axis of the first ellipse 202, the first curve 2021 being obtained by the intersection of the first perpendicular 2011 and the second perpendicular 2012 with the first ellipse 202;

determining a gray scale coefficient ra of each pixel p to be processed according to positions of the pixel p to be processed relative to a first curve 2021 on the first ellipse 202 close to the arc-shaped boundary 201 and a second curve 2031 on the second ellipse 203 close to the arc-shaped boundary 201, wherein the second curve 2031 is obtained by intersecting the first perpendicular 2011 and the second perpendicular 2012 with the second ellipse 203;

correspondingly multiplying the original gray-scale value g1 of the pixel p to be processed by the gray-scale coefficient ra to obtain a target gray-scale value g2 of the pixel p to be processed;

and displaying according to the target gray-scale value g2 of the pixel p to be processed so as to eliminate the phenomenon that the display device 200 appears jaggy at the arc-shaped boundary 201 when displaying an image, and improve the display quality of the display device 200.

Specifically, the first perpendicular line 2011, the second perpendicular line 2012 and the second curve 2031 enclose to form a first pixel region to be processed; the first perpendicular line 2011, the second perpendicular line 2012, the first curve 2021 and the second curve 2031 enclose to form a second pixel region to be processed; the first curve 2021, the first tangent line 201c, and the second tangent line 201d enclose to form a third to-be-processed pixel region. And judging the area where the pixel p to be processed is positioned by utilizing the position of the pixel p to be processed, thereby obtaining the gray scale coefficient ra of the pixel p to be processed corresponding to different areas.

Specifically, the position of the pixel p to be processed is determined by ellipse definition (the major axis of an ellipse in the ellipse is equal to the sum of the distances from a point on the ellipse to two focuses), that is, the pixel p to be processed is located on a certain ellipse with the focus F of the first ellipse 202 as the focus; the focus F of the first ellipse 202 comprises a first focus F1 and a second focus F2, the gray scale of the pixel p to be processed being determined according to the distance d of the pixel p to be processed from the focus F, the distance d of the pixel p to be processed from the focus F being equal to half of the sum of the distances of the pixel p to be processed to the first focus F1 and the second focus F2;

namely:

comparing the distance d between the pixel p to be processed and the focus F with the length a1 of the long axis of the first ellipse 202 and the length a2 of the long axis of the second ellipse 203, determining the area where the pixel p to be processed is located, and determining the gray scale coefficient ra of the pixel p to be processed corresponding to different areas.

If half of the sum of the distances from the pixel P to be processed to the first focus F1 and the second focus F2 is less than or equal to the length a2 of the major axis of the second ellipse 203, the pixel P to be processed is located in the first pixel area to be processed, the gamma ra of the pixel P to be processed is 1, and the pixel P to be processed is displayed according to the original gray scale g 1;

namely: if it is

Then: ra is 1; g 2-g 1;

if the half of the sum of the distances from the pixel p to be processed to the first focus F1 and the second focus F2 is greater than the length a2 of the major axis of the second ellipse 203 and less than or equal to the length a1 of the major axis of the first ellipse 202, the pixel p to be processed is located in the second pixel area to be processed, and the gamma ra of the pixel p to be processed is the ratio of the distance from the pixel p to be processed to the second ellipse 203 to the distance from the first ellipse 202 to the second ellipse 202; specifically, the gamma factor ra of the pixel p to be processed is equal to the difference between the length a2 of the major axis of the second ellipse 203 and the distance d of the pixel p to be processed from the focus, compared with the difference between the length a1 of the major axis of the first ellipse 202 and the length a2 of the major axis of the second ellipse 203;

namely: if it is

Then:

g2＝ra×g1。

if half of the sum of the distances from the pixel p to be processed to the first focus F1 and the second focus F2 is greater than the length a1 of the major axis of the first ellipse 202, the pixel p to be processed is located in the third pixel area to be processed, the gamma of the pixel p to be processed is 0, and the pixel p to be processed does not participate in the display;

namely: if it is

Then: ra is 0 and g2 is 0.

According to the position of the pixel p to be processed and the corresponding grayscale coefficient ra, the target grayscale value of the pixel p to be processed close to the arc boundary 201 is smaller than the target grayscale value of the pixel p to be processed far away from the arc boundary 201, so that the problem that the pixel p to be processed close to the arc boundary 201 is prone to generating a sawtooth phenomenon when an image is displayed is solved.

Since each of the pixels p to be processed includes a plurality of sub-pixels, which are RGB sub-pixels, the distance d from the focus F to the pixel p to be processed is substantially equal to the distance from the center of the plurality of sub-pixels in each of the pixels p to be processed to the focus F.

With continued reference to fig. 2A and 2B, the arc-shaped boundary 201 is located at the lower left corner of the display device 200, and the first ellipse 202 is determined by the first intersection point O, i.e., centered on the pixel in the image to be displayed corresponding to the first intersection point O, and is respectively moved to the side of the display device 200 close to the first perpendicular 2011 to determine the first focus F1 of the first ellipse 202 and to the side close to the second perpendicular 2012 to determine the second focus F2 of the first ellipse 202; the center O' of the first ellipse 202 is located on the line L1 formed by the first focus F1 and the second focus F2; a straight line L1 of the first focus F1 and the second focus F2 is perpendicular to a straight line L2 of the center O and the first intersection O.

The pixel in the image to be displayed corresponding to the first intersection point O is at least one pixel size away from the focus F of the first ellipse 202, and specifically, the pixel in the image to be displayed corresponding to the first intersection point O is at least one pixel size away from the first focus F1 and the second focus F2, respectively.

The first ellipse 202 and the arc-shaped boundary 201 have a first tangent point 202a and a second tangent point 202b, the first tangent point 202a coincides with the starting point 201a, and the second tangent point 202b coincides with the ending point 201b, so that a first curve 2021 on the first ellipse 202 near the arc-shaped boundary 201 fits the arc-shaped boundary 201.

Since the manner of determining the first ellipse 202 when the arc boundary 201 is located at the upper left corner, the upper right corner, and the lower right corner of the display device 200 is similar to the manner of determining the first ellipse 202 when the arc boundary 201 is located at the lower left corner of the display device 200, the details of the present application are not repeated herein.

The second ellipse 203 is determined according to the first focus F1 and a second focus F2 of the first ellipse 202, and specifically, the second ellipse 203 with a major axis length a2 smaller than the major axis length a1 of the first ellipse 202 is determined with the first focus F1 of the first ellipse 202 as a first focus of the second ellipse 203 and the second focus F2 of the first ellipse 202 as a second focus of the second ellipse 203; the length a1 of the major axis of the first ellipse 202 is different from the length a2 of the major axis of the second ellipse 203 by 1-3 pixel sizes.

An embodiment of the present application further provides a display device, where the display device includes:

a to-be-processed pixel obtaining module, configured to use the starting point as a first tangent line of the arc boundary and a first perpendicular line perpendicular to the first tangent line, taking the end point as a second tangent line of the arc boundary and a second perpendicular line perpendicular to the second tangent line, wherein the intersection point of the first perpendicular line and the second perpendicular line is a first intersection point, determining a first ellipse by using pixels in the image to be displayed corresponding to the first intersection point, wherein a plurality of pixels in the image to be displayed corresponding to an area enclosed by the first vertical line, the second vertical line and a first curve on the first ellipse close to the arc-shaped boundary are pixels to be processed, determining a second ellipse from the focus of the first ellipse, the length of the major axis of the second ellipse being less than the length of the major axis of the first ellipse, the first curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the first ellipse;

a grayscale coefficient obtaining module, configured to determine a grayscale coefficient of each pixel to be processed according to positions of the pixel to be processed relative to a first curve on the first ellipse close to the arc-shaped boundary and a second curve on the second ellipse close to the arc-shaped boundary, where the second curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the second ellipse;

the target gray scale value acquisition module is used for correspondingly multiplying the original gray scale value of the pixel to be processed by the gray scale coefficient to obtain a target gray scale value of the pixel to be processed;

and the display module is used for displaying according to the target gray-scale value of the pixel to be processed.

The display method and the display device provided by the embodiment of the application, the display method is used in the display device 200, the display device 200 at least has a display area 200a, the display area 200a at least has an arc-shaped boundary 201, the arc-shaped boundary 201 has a starting point 201a and an end point 201b, the starting point 201a is used as a first tangent 201c of the arc-shaped boundary 201 and a first perpendicular 2011 perpendicular to the first tangent 201c, the end point 201b is used as a second tangent 201d of the arc-shaped boundary 201 and a second perpendicular 2012 perpendicular to the second tangent 201d, an intersection point of the first perpendicular 2011 and the second perpendicular 2012 is a first intersection point O, a first ellipse 202 is determined by a pixel in an image to be displayed corresponding to the first intersection point O, and the first perpendicular 2011, the second perpendicular 2012 and a plurality of pixels in the image to be displayed corresponding to an area in a first curve 2021 around the arc-shaped boundary 201 on the first ellipse 202 are to be located A pixel p, determining a second ellipse 203 according to the focus F of the first ellipse 202, wherein the length a2 of the major axis of the second ellipse 203 is smaller than the length a1 of the major axis of the first ellipse 202, and the first curve 2021 is obtained by intersecting the first ellipse 202 with the first perpendicular 2011 and the second perpendicular 2012; determining a gray scale coefficient ra of each pixel p to be processed according to positions of the pixel p to be processed relative to a first curve 2021 on the first ellipse 202 close to the arc-shaped boundary 201 and a second curve 2031 on the second ellipse 203 close to the arc-shaped boundary 201, wherein the second curve 2031 is obtained by intersecting the first perpendicular 2011 and the second perpendicular 2012 with the second ellipse 203; correspondingly multiplying the original gray-scale value g1 of the pixel p to be processed by the gray-scale coefficient ra to obtain a target gray-scale value g2 of the pixel p to be processed; and displaying according to the target gray-scale value g2 of the pixel p to be processed, so as to solve the problem that the display device 200 is easy to have a jaggy phenomenon at the arc-shaped boundary 201 during displaying, which affects the display quality.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

The display method and the display device provided by the embodiment of the present application are described in detail above, and a specific example is applied in the description to explain the principle and the implementation of the present application, and the description of the embodiment is only used to help understanding the technical solution and the core idea of the present application; those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure as defined by the appended claims.

Claims (5)

1. A display method for a display device, the display device having at least a display area, the display area having at least an arc-shaped boundary, the arc-shaped boundary having a start point and an end point, the display method comprising the steps of:

making a first tangent line of the arc boundary and a first perpendicular line perpendicular to the first tangent line with the starting point, taking the end point as a second tangent line of the arc boundary and a second perpendicular line perpendicular to the second tangent line, wherein the intersection point of the first perpendicular line and the second perpendicular line is a first intersection point, determining a first ellipse according to the pixel in the image to be displayed corresponding to the first intersection point, wherein the first ellipse and the arc boundary have a first tangent point and a second tangent point, the first tangent point is coincident with the starting point, the second tangent point is coincident with the end point, a plurality of pixels in the image to be displayed corresponding to the area enclosed by the first and second perpendicular lines and the first and second tangent lines are pixels to be processed, determining a second ellipse according to the focus of the first ellipse, wherein the length of the long axis of the second ellipse is smaller than that of the long axis of the first ellipse;

determining a gray scale coefficient of each pixel to be processed according to positions of the pixel to be processed relative to a first curve on the first ellipse, which is close to the arc-shaped boundary, and a second curve on the second ellipse, which is close to the arc-shaped boundary, wherein the first curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the first ellipse, the second curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the second ellipse, and the first perpendicular line, the second perpendicular line and the second curve enclose to form a first pixel area to be processed; the first vertical line, the second vertical line, the first curve and the second curve enclose to form a second pixel area to be processed, the first curve, the first tangent line and the second tangent line enclose to form a third pixel area to be processed, the position of the pixel to be processed is used for judging the area where the pixel to be processed is located, so that gray scale coefficients of the pixel to be processed corresponding to different areas are obtained, the focus comprises a first focus and a second focus, the gray scale coefficient of the pixel to be processed is determined according to the distance from the pixel to be processed to the focus, and the distance from the pixel to be processed to the focus is equal to half of the sum of the distances from the pixel to be processed to the first focus and the second focus;

when the half of the sum of the distances from the pixel to be processed to the first focus and the second focus is less than or equal to the length of the long axis of the second ellipse, the gray scale coefficient of the pixel to be processed is 1, and the pixel to be processed is displayed according to the original gray scale;

when half of the sum of the distances from the pixel to be processed to the first focus and the second focus is greater than the length of the long axis of the second ellipse and less than or equal to the length of the long axis of the first ellipse, the gray scale coefficient of the pixel to be processed is the ratio of the distance from the pixel to be processed to the second ellipse to the distance from the first ellipse to the second ellipse;

when the half of the sum of the distances from the pixel to be processed to the first focus and the second focus is greater than the length of the long axis of the first ellipse, the gray scale coefficient of the pixel to be processed is 0;

correspondingly multiplying the original gray scale value of the pixel to be processed by the gray scale coefficient to obtain a target gray scale value of the pixel to be processed;

and displaying according to the target gray-scale value of the pixel to be processed.

2. The display method according to claim 1, wherein the length of the major axis of the first ellipse is different from the length of the major axis of the second ellipse by 1 to 3 pixel sizes.

3. The display method according to claim 1, wherein the pixel in the image to be displayed corresponding to the first intersection point is at least one pixel size away from the focus of the first ellipse.

4. The display method according to claim 1, wherein the target gray-scale value of the pixel to be processed close to the arc-shaped boundary is smaller than the target gray-scale value of the pixel to be processed far from the arc-shaped boundary.

5. A display device, the display device having at least one display area, the display area having at least one arc-shaped boundary, the arc-shaped boundary having a start point and an end point, the display device comprising:

a to-be-processed pixel obtaining module, configured to use the starting point as a first tangent line of the arc boundary and a first perpendicular line perpendicular to the first tangent line, taking the end point as a second tangent line of the arc boundary and a second perpendicular line perpendicular to the second tangent line, wherein the intersection point of the first perpendicular line and the second perpendicular line is a first intersection point, determining a first ellipse according to the pixel in the image to be displayed corresponding to the first intersection point, wherein the first ellipse and the arc boundary have a first tangent point and a second tangent point, the first tangent point is coincident with the starting point, the second tangent point is coincident with the end point, a plurality of pixels in the image to be displayed corresponding to the area enclosed by the first and second perpendicular lines and the first and second tangent lines are pixels to be processed, determining a second ellipse according to the focus of the first ellipse, wherein the length of the long axis of the second ellipse is smaller than that of the long axis of the first ellipse;

a grayscale coefficient obtaining module, configured to determine a grayscale coefficient of each pixel to be processed according to positions of the pixel to be processed relative to a first curve on the first ellipse close to the arc-shaped boundary and a second curve on the second ellipse close to the arc-shaped boundary, where the first curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the first ellipse, the second curve is obtained by intersecting the first perpendicular line and the second perpendicular line with the second ellipse, the focus includes a first focus and a second focus, the grayscale coefficient of the pixel to be processed is determined according to a distance from the pixel to be processed to the focus, and the distance from the pixel to be processed to the focus is equal to half of a sum of distances from the pixel to be processed to the first focus and the second focus;

when the half of the sum of the distances from the pixel to be processed to the first focus and the second focus is less than or equal to the length of the long axis of the second ellipse, the gray scale coefficient of the pixel to be processed is 1, and the pixel to be processed is displayed according to the original gray scale;

when half of the sum of the distances from the pixel to be processed to the first focus and the second focus is greater than the length of the long axis of the second ellipse and less than or equal to the length of the long axis of the first ellipse, the gray scale coefficient of the pixel to be processed is the ratio of the distance from the pixel to be processed to the second ellipse to the distance from the first ellipse to the second ellipse;

when the half of the sum of the distances from the pixel to be processed to the first focus and the second focus is greater than the length of the long axis of the first ellipse, the gray scale coefficient of the pixel to be processed is 0;

the target gray scale value acquisition module is used for correspondingly multiplying the original gray scale value of the pixel to be processed by the gray scale coefficient to obtain a target gray scale value of the pixel to be processed;

and the display module is used for displaying according to the target gray-scale value of the pixel to be processed.

Images