KR101309140B1 - Image display method - Google Patents

Abstract

The present invention relates to an image display method for displaying an image having a larger area than a display panel, the method comprising: receiving a plurality of image signals; Separating first and second image signals of a first image and a second image among the plurality of image signals; Storing the separated first and second image signals in units of frames, respectively; Displaying the first image signal as a normal image on a display panel, and displaying the second image signal as an inverted image on the display panel; Dividing the viewing area so that the first image and the second image have different viewing areas; It provides a video display method comprising the step of reflecting the second image to the same field of view as the first image.

Accordingly, the image displayed by the reflecting member and the image recognized directly from the display panel are displayed in a normal and natural display in the image display device using the reflective member such as a mirror and the viewing area generating member. By doing so, there is an advantage of providing the viewer with an extended video screen of high quality.

Description

Image display method

1 is a cross-sectional view of an image display device according to an embodiment of the present invention.

FIG. 2 is a perspective view illustrating an application arrangement of the image display device shown in FIG.

3 is an image display screen for reference in explaining the image display method according to the first embodiment of the present invention.

4 is a view for explaining the concept of an image display method according to a first embodiment of the present invention;

5 is a flowchart illustrating an image display method according to a first embodiment of the present invention.

6 is an image display screen for reference in describing the image display method according to the second embodiment of the present invention.

7 is a view for explaining the concept of an image display method according to a second embodiment of the present invention;

8 is a flowchart illustrating an image display method according to a second embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

Z1, Z2, Z3: First, Second, Third Image Display Areas

I1, I2, I3: first, second, third images 300, 400: display panel

The present invention relates to an image display method, and more particularly to an image display method for displaying an image of a larger area than the display panel.

An image display apparatus for displaying an image includes a display panel in which an image is directly displayed and a driving unit for operating the image, and a plurality of pixels in a two-dimensional matrix form are formed on the display panel. Such an image display apparatus displays one screen by combining the unit image signals displayed in each pixel.

Recently, an image display device in which a parallax barrier or a lenticular lens is formed between a display panel and a user, and different pixels viewed between barriers according to a viewing angle has been introduced. In such an image display apparatus, pixels displaying an image vary according to the viewing angle, and different viewing zones are formed according to the viewing angle, and different images are displayed in different viewing areas by displaying different image signals with these pixels. To be displayed.

An object of the present invention is to provide an image display method of an image display device that forms different viewing areas as described above, and in particular, an image display method that allows a natural image to be displayed on an image display device forming different viewing areas. do.

In order to achieve the above object, the present invention comprises the steps of receiving a plurality of video signals; Separating first and second image signals of a first image and a second image among the plurality of image signals; Storing the separated first and second image signals in units of frames, respectively; Displaying the first image signal as a normal image on a display panel, and displaying the second image signal as an inverted image on the display panel; Dividing the viewing area so that the first image and the second image have different viewing areas; It provides a video display method comprising the step of reflecting the second image to the same field of view as the first image.

The first to second image signals may be alternately displayed on the display panel by one pixel line in a horizontal or vertical direction.

The second image signal displayed on the display panel may be displayed as an upside down image or a leftward and rightside reverse image.

The image display method may further include: separating a third image signal for a third image among the plurality of image signals; Storing the separated third video signal in units of frames; Displaying the thirty-third image signal as an inverted image on the display panel; Dividing the viewing area so that the third image has a different viewing area than the first image and the second image; The method may further include reflecting the third image to the same field of view as the first image.

The third image signal may be displayed on the display panel as an upside down image or left and right reversed image.

The first to third image signals are alternately displayed on the display panel by one pixel line in a horizontal or vertical direction.

Each of the images may be a different image, and in particular, a partial image of the entire divided image divided into two or three.

View separation of each image is characterized by using a parallax barrier or a lenticular array.

The second image and the third image are reflected to the viewing area of the first image through a mirror.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. First, an image display apparatus suitable for application of an image display method according to the present invention will be described.

1 is a reference view for explaining an image display method according to an exemplary embodiment of the present invention. FIG. .

As shown in FIG. 1, the image display device 210 forms a predetermined angle θ with the display panel 220, the viewing unit 230 in front of the display panel, and the display panel 220. It includes a reflector (M) disposed at one end of the. The reflecting unit M may be configured at both ends of the display panel depending on the application.

The display panel 220 sequentially arranges the first and second image pixels P _IM 1 and P _IM 2 which display the first and second images I1 and I2, respectively, Together, the first and second viewing areas VZ1 and VZ2 are formed. The parallax barrier 230 may use a parallax barrier or a lenticular lens.

The first and second images I1 and I2 may be composed of partial images obtained by dividing a single image. For example, after dividing a single image into two images to obtain left and right partial images, the left partial image may be divided into second images. The first image I1 may be allocated and the right partial image may be allocated to the second image I2.

Accordingly, the first image I1 displayed on the first image pixel P _IM 1 of the display panel 220 forms the first viewing region VZ1 via the viewing region generating unit 230, and the display panel 220. The second image I2 displayed on the second image pixel P _IM 2 may form the second viewing region VZ2 through the viewing region generating unit 230.

The reflecting unit M is disposed on the second viewing area VZ2 to form a constant angle θ with the display panel 220, and the angle θ may have a value ranging from 80 degrees to 100 degrees. Preferably it has a value of 90 degrees. In addition, the reflector M may be formed of a material having high reflectance, for example, using a mirror.

Accordingly, among the images displayed by the display panel 220, the first image I1 goes straight without reflection to reach the first viewing area VZ1, while the second image I2 does not reach the second viewing area VZ2. The light is reflected by the reflector M and transferred to the first viewing area VZ1.

Accordingly, the user 240 located in the first viewing area VZ1 may view both the first and second images I1 and I2, and the second image reflected by the reflector M from the user 240 may be viewed. I2) recognizes that the second image I2 is displayed on the virtual display panel 220a positioned on the right extension line of the display panel 220 behind the reflector M. FIG.

In this case, the virtual display panel 220a has substantially the same width as the display panel 220.

Accordingly, the user 240 recognizes that the first and second images I1 and I2 displayed on the display panel 220 and the virtual display panel 220b are viewed.

As mentioned above, when the first and second images I1 and I2 are composed of partial images obtained by dividing one image, for example, after dividing one image into two images to obtain left and right partial images, When the left partial image is allocated to the first image I1 and the right partial image is allocated to the second image I2, the user 240 combines the first and second images I1 and I2 to provide one image. It is recognized that the display panel 220 and the virtual display panel 220a are displayed on one enlarged panel.

Since the virtual display panel 220a has substantially the same width as the display panel 220, the enlarged panel has a width that is substantially twice larger than that of the display panel 220, and the user 240 displays the first viewing area ( When looking at VZ1), the image is enlarged 2 times in the horizontal direction.

Accordingly, the image display device may display an image enlarged than the size of the display panel by using the display panel, the viewing unit, and the reflector.

2 is a perspective view illustrating an application arrangement of the image display apparatus described above.

As illustrated, the image display device 210 may be disposed such that the display panel 220 is placed on a horizontal plane and the reflector M is perpendicular to the display panel 220.

That is, as shown in FIG. 1, since the first viewing area VZ1 is located away from the front of the display panel 220, when the display panel 220 is placed on a horizontal surface such as a table, the image display device 210 is used. The user naturally looks at the display panel 210 from the front of the display panel 220. In this case, the first and second images are divided into one image up and down, and the lower partial image is allocated as the first image and the upper partial image is assigned as the second image. The first and second image pixels are displayed on the display panel. Are sequentially arranged up and down sequentially and the viewing area generating unit generates the first and second viewing areas distributed vertically.

Therefore, the user combines the first image I1 directly transmitted from the display panel 220 and the second image I2 transmitted from the reflector M to recognize the image as a naturally enlarged image.

As described above, the above-described image display apparatus extends an image using a reflection member and a viewing unit, and the image display method of the image display apparatus will be described in detail below.

First Embodiment

3 is an image display screen diagram for reference in explaining an image display method according to a first embodiment of the present invention. FIG. 3 is a view showing an image recognized by displaying an image through the image display apparatus as described above. 4 is a view for explaining the concept of the English trademark method according to the first embodiment of the present invention.

FIG. 3 shows a first image display area Z1 in which a first image displayed on the display panel 300 of FIG. 4 is directly recognized by the viewer's eyes, and is reflected from the display panel 300 through a reflective member such as a mirror. The image is divided into a second image display region Z2 formed by recognizing the image, for example, as shown in FIG. 2, a reflective member (M in FIG. 2) is formed on the display panel 220 and divided into upper and lower portions. This is an image screen displayed on the image display device in which the image display areas are combined.

In this case, the first and second images I1 and I2 respectively displayed in the first image display region Z1 and the second image display region Z2 are different images or partial images obtained by dividing a single image. Can be.

Accordingly, in order to recognize a normal image such as "7" as illustrated in FIG. 3, the second image I2 displayed in the second image display area Z2 is displayed on the display panel 300. Therefore, the display panel 300 should be displayed in consideration of the shape of the reflection image by the reflection unit M. FIG.

Accordingly, the image display method according to the first embodiment of the present invention will be described with reference to the flowchart of FIG. 5. First, the first image (I1 of FIG. 1) and the second image (I2 of FIG. 1) are displayed from an external system. Receive video signal that can be done (st1)

Thereafter, the first video signal and the second video signal are separated from the input video signal. (st2)

The separated first video signal and the second video signal are each stored in a separate memory device in a frame unit, wherein the memory device uses a read only memory (ROM) such as an EEPROM (st3).

The first video signal is stored in the first memory device in a frame unit and then outputs to the display panel 300. The second video signal is also stored in a separate second memory device in a frame unit. The display panel 300 is then output to the display panel 300.

The first image signal and the second image signal stored as described above are output to the display panel 300 to display the image to be displayed in the first image display area Z1 and the second image display area Z2 before the image is displayed. It should be output in consideration of the coupling form. Since the image formed by the reflector M is the second image I2, the second image by the second image signal stored in the second memory device is inverted in the unit of the frame image. The display panel 300 is output to the display panel 300 so as to be displayed in a form. (St4)

That is, as shown in FIG. 4, the first image I1 displayed by the first image signal is displayed on the display panel 300 in a normal form, but the second image I2 displayed by the second image signal is displayed. ) Indicates that the upper and lower positions of the display panel 300 are displayed in an inverted form. In the drawing, the solid line image is the first image I1 and the dotted line image is the second image I2.

As described above, the second image I2 is inverted up and down and displayed on the display panel 300. Then, the first image I1 and the second image I2 are viewed using parallax barriers or lenticular lenses, respectively. When the second image I2 is separated (st5) and reflected to the viewing area of the first image I1 using the reflector M such as a mirror, the second image I2 is the reflector M Inverted up and down by) can be recognized by the viewer as a combined image of the complete form as shown in Figure 3 (st6).

In conclusion, an image display device which displays an image having a larger area than a display panel by using a viewing device such as the parallax barrier or a lenticular lens and the reflecting member, and an image extended by the reflecting member in an image expansion in the vertical direction. The portion is displayed in the form of upside down in advance on the display panel 300.

In addition, the method of inputting image signals of the first image I1 and the second image I2 to the display panel 300 may include a first image in an odd (or even) horizontal pixel column when the image is extended in the vertical direction. Input the video signal and input the second video signal to the remaining even-numbered (or odd-numbered) horizontal pixel columns so that the second video image is inverted up and down. The first image signal is input, and the second image signal is inputted to the remaining even (or odd) vertical pixel columns such that the image of the second image is inverted left and right.

Second Embodiment

6 is an image display screen diagram for reference in explaining an image display method according to a second embodiment of the present invention, and FIG. 7 is a view for explaining a concept of an image display method according to a second embodiment of the present invention.

FIG. 6 illustrates a screen form that is recognized by extending an image in left and right directions when the image is expanded. A first image I1 displayed on the display panel 400 of FIG. 7 is directly recognized by an eye of a viewer. The image is divided into a second image display region Z2 and a third image display region Z3, which are formed by forming image display regions Z1 and reflecting members such as mirrors on the left and right sides of the display panel 400, respectively. Left and right extended screen.

In this case, the first to third images I1, I2, and I3 respectively displayed in the first image display region Z1 to the third image display region Z3 are different images or portions in which one image is divided from each other. It may be an image.

Accordingly, the second image I2 displayed in the second image display region Z2 and the third image display region Z3 in order to recognize the image having a normal shape such as “7” as illustrated in FIG. 6. And displaying the third image I3 on the display panel 400 in consideration of the shape of the reflection image.

Therefore, the image display method according to the second embodiment of the present invention will be described with reference to the flowchart of FIG. 8. First, an image signal capable of displaying the first to third images I1 to I3 is input from an external system. (St11)

Thereafter, the first video signal, the second video signal, and the third video signal are separated from the received video signal. (st12)

Each of the separated first to third image signals is stored in a separate memory element on a frame basis, wherein the memory element uses a read only memory (ROM) such as an EEPROM (st13).

The first video signal is stored in the first memory device in a frame unit and then outputs to the display panel 400. The second video signal is also stored in a separate second memory device in a frame unit. The display panel 400 is then output to the display panel 400, and the third image signal is also output to the display panel 400 after the image signal is stored in a separate unit in a third memory device.

As described above, the first to third image signals stored in the memory device in the unit of frame are output to the display panel 400 before the first image display region Z1 and the second image display region Z2 are displayed. And output in consideration of the combined form of the image to be displayed in the third image display area Z3. The second image I2 and the third image I3 recognized by the viewer as the reflected image are inverted in units of frames. The image is output to the display panel 400 so that the image is displayed in the form (st14).

That is, as shown in FIG. 7, the first image I1 displayed by the first image signal is displayed in a normal form on the display panel 400, but is displayed by the second image signal and the third image signal. The second image I2 and the third image I3 may be displayed on the display panel 400 in an inverted position. In the drawing, the solid line image is the first image I1 and the dotted line image is the second image I2 and the third image I3.

As described above, the second image I2 and the third image I3 are inverted left and right and displayed on the display panel 400, and then the first to third images I1, I2, and I3 are parallax barrier or lenticular. Each viewing area is separated using a lens (st15), and the first image (I1) is formed using a reflection member such as a mirror formed on the side of the display panel 400 for the second image I2 and the third image I3. When reflected to the field of view, the second image I2 and the third image I3 are inverted left and right by the mirror so that the viewer can recognize the combined image of the intact form as shown in FIG. 6. )

In conclusion, as in the first embodiment, an image in a left and right direction is displayed in an image display apparatus displaying an image having a larger area than a display panel by using a viewing device such as the parallax barrier or a lenticular lens and a reflection member such as a mirror. The image portion expanded by the reflective member when expanded is displayed in the form of left and right reversed in advance on the display panel 400.

In addition, a method of inputting image signals of the first image I1, the second image I2, and the third image I3 to the display panel 400 includes the first three vertical pixels when the image is extended in the left and right directions. The first video signal, the second video signal, and the third video signal are sequentially input from the columns, and the video signals are input in the same order as described above for the next three vertical pixel columns, and the second video signal and the third video signal are Each image is inputted so as to appear upside down. In the case of the image expansion in the vertical direction, the first video signal, the second video signal, and the third video signal are sequentially input from the first three horizontal pixel columns, and the next three horizontal signals are inputted. The image signals are also input to the pixel columns in the same order as described above, but the second and third image signals are input such that the images appear upside down.

In the image display method according to the present invention described above, an image displayed by the reflective member and an image directly recognized by the display panel in the image display apparatus using an reflective member such as a mirror and a viewing area generating member are enlarged. The combined and displayed image is normally and naturally displayed, thereby providing a viewer with an extended image screen of high quality.

Claims (10)

Receiving a plurality of video signals; Separating first and second image signals of a first image and a second image among the plurality of image signals; Storing the separated first and second image signals in frame units in the first and second memory devices, respectively; Displaying the first image as a normal image on the entire display panel by inputting the first image signal stored in the first memory device to a display panel; Inverting the second image signal stored in the second memory device and inputting the second image signal to the display panel to display the second image as an inverted image on the entire display panel; Dividing the viewing area so that the first image and the second image have different viewing areas; Reflecting the second image to the same viewing area as the first image Image display method comprising a The method according to claim 1, The first to second image signals are displayed on the display panel alternately by one pixel line in a horizontal or vertical direction. The method according to claim 1, The second image signal displayed on the display panel is displayed as an upside down image or left and right reversed image. The method according to claim 1, Separating a third image signal for a third image among the plurality of image signals; Storing the separated third image signal in a frame unit in a third memory device; Inverting the third image signal stored in the third memory device and inputting the same to the display panel to display the third image as an inverted image on the entire display panel; Dividing the viewing area so that the third image has a different viewing area than the first image and the second image; Reflecting the third image to the same viewing area as the first image Image display method further comprising The method according to claim 4, The third image signal is displayed on the display panel as an upside down image or left and right reversed image. The method according to claim 4, The first to third image signals are displayed on the display panel alternately by one pixel line in a horizontal or vertical direction. The method according to claim 1 or 4, Each image is a different image, and in particular, the image display method, characterized in that the partial image of the whole image divided into two or three divided The method according to claim 1 or 4, View separation method for each image is characterized in that using a parallax barrier or lenticular array The method according to claim 1 or 4, The second image and the third image image display method, characterized in that reflected through the mirror to the field of view of the first image The method according to claim 1, The first image signal is input to an odd-numbered horizontal pixel column of the display panel so that the first image is displayed as a normal image, and the second image signal is displayed on the display panel so that the second image is displayed upside down. In even-numbered horizontal pixels, or The first image signal is input to an odd-numbered vertical pixel column of the display panel so that the first image is displayed as a normal image, and the second image signal is inputted to the left and right inverted images of the display panel. Image display method characterized in that the input to the even-numbered vertical pixel column

Images