JP5463939B2 - Display device and display method - Google Patents

Description

  The present invention relates to a display device and a display method for displaying a stereoscopic image to an observer.

  An apparatus using a transmission display monitor is known as a stereoscopic display apparatus for the naked eye that provides a stereoscopic image without using dedicated glasses. This stereoscopic display device includes a transmissive display monitor, a right-eye point light source and a left-eye point light source that emit light from the back side of the transmissive display monitor, and a lens that is substantially the same size as the transmissive display monitor. Is provided.

  The lens is provided between the transmissive display monitor and the point light source. The lens forms an image of light from the right eye point light source on the right eye of the viewer, and forms an image of the light from the left eye point light source on the left eye of the viewer. As a result, the stereoscopic display device provides the right-eye image only to the viewer's right eye and the left-eye image only to the viewer's left eye, to a naked-eye viewer who does not use dedicated glasses. In contrast, a stereoscopic image can be provided.

  By the way, in such a stereoscopic display device, a plurality of viewers cannot simultaneously observe a stereoscopic image from a plurality of directions.

  In order to solve the above problems, in the first aspect of the present invention, a first image is displayed at a first timing, and a second image is displayed at a second timing. A light source panel having a plurality of first light sources and a plurality of second light sources, and provided between the display panel and the light source panel, and refracts light from the plurality of first light sources in a first viewpoint direction A lenticular lens that gives the first viewpoint, refracts light from the plurality of second light sources in a second viewpoint direction and gives the second viewpoint, and turns on the plurality of first light sources at the first timing, A display device comprising: a light source controller configured to turn off the plurality of second light sources, turn on the plurality of second light sources at the second timing, and turn off the plurality of first light sources; It provides a display method using a display device such as a.

  Note that the summary of the invention described above does not list all necessary features of the present invention, and sub-combinations of these feature groups can also be disclosed.

The structure of the display apparatus 10 which concerns on this embodiment is shown. Each structure of the display panel 12, the light source panel 14, and the lenticular lens 16 with which the display apparatus 10 which concerns on this embodiment is equipped is shown. An example of the light given to the viewer from the display device 10 according to the present embodiment is shown. The structure of the display apparatus 10 which concerns on the 1st modification of this embodiment is shown. The structure of the display apparatus 10 which concerns on the 2nd modification of this embodiment is shown.

  Hereinafter, the present invention will be described through embodiments of the invention. However, the following embodiments do not limit the claimed invention, and all combinations of features described in the embodiments are described. It is not necessarily essential for the solution of the invention.

  FIG. 1 shows a configuration of a display device 10 according to the present embodiment. FIG. 2 shows configurations of the display panel 12, the light source panel 14, and the lenticular lens 16 provided in the display device 10 according to the present embodiment.

  The display device 10 receives image data including a right-eye image and a left-eye image for stereoscopic display from a reception device, a reproduction device, or the like. The display device 10 can display the image for the right eye and give it only to the right eye of the viewer, and can display the image for the left eye and give it only to the left eye of the viewer. Such a display device 10 can make a viewer who does not wear dedicated glasses for image separation, that is, a viewer with naked eyes, observe a stereoscopic image.

  The display device 10 includes a display panel 12, a light source panel 14, and a lenticular lens 16. The display panel 12 displays a right eye image and a left eye image. The display panel 12 is a transmissive panel that provides a viewer with a displayed image by transmitting light emitted from the back side.

  In the display panel 12, a plurality of first display regions 22 that transmit the first polarization component of incident light and a plurality of second display regions 24 that transmit the second polarization component of incident light are alternately arranged. For example, the display panel 12 displays a right-eye image in the first display area 22 and a left-eye image in the second display area 24. The light of the first polarization component and the light of the second polarization component may be linearly polarized light (S polarized light and P polarized light) whose polarization directions are orthogonal to each other, or circularly polarized light whose rotation directions are opposite to each other. .

  As an example, each of the plurality of first display areas 22 and the plurality of second display areas 24 extends in the horizontal direction (left-right direction) of the display panel 12 and is alternately arranged in the vertical direction (up-down direction) of the display panel 12. Is done. For example, the display panel 12 may be configured to alternately include horizontal lines that transmit light of the first polarization component and horizontal lines that transmit light of the second polarization component.

  The light source panel 14 irradiates the back surface of the display panel 12 with light. The light irradiated on the back surface of the display panel 12 passes through the display panel 12 and is given to the viewer. Thereby, the viewer can appreciate the image displayed on the display panel 12.

  The light source panel 14 includes a plurality of first light sources 32 that irradiate the display panel 12 with light of the first polarization component from the back surface, and a plurality of second light sources 34 that irradiate the display panel 12 with light of the second polarization component from the back surface. Are alternately arranged in the horizontal direction. For example, each of the plurality of first light sources 32 and the plurality of second light sources 34 extends in the vertical direction of the display panel 12 from the upper end to the lower end of the display panel 12. Each of the plurality of first light sources 32 and the plurality of second light sources 34 can irradiate uniform light in the vertical direction of the display panel 12.

  The lenticular lens 16 is provided between the display panel 12 and the light source panel 14. The lenticular lens 16 refracts the light from the plurality of first light sources 32 in the first viewpoint direction and gives the light transmitted through the plurality of first display regions 22 to the first viewpoint corresponding to the right eye of the viewer. . Further, the lenticular lens 16 refracts the light from the plurality of second light sources 34 in the second viewpoint direction, and the second viewpoint corresponding to the left eye of the viewer with the light transmitted through the plurality of second display regions 24. To give.

  As an example, the lenticular lens 16 includes a plurality of lenses 42 that extend in the vertical direction of the display panel 12 from the upper end to the lower end of the display panel 12. The plurality of lenses 42 are arranged side by side in the horizontal direction of the display panel 12 from the right end to the left end of the display panel 12.

  FIG. 3 shows an example of light given to the viewer from the display device 10 according to the present embodiment. In the display device 10, the light of the first polarization component output from each of the plurality of first light sources 32 is refracted by the lenticular lens 16 in the direction of the first viewpoint corresponding to the right eye of the viewer. The light of the first polarization component refracted by the lenticular lens 16 passes through the plurality of first display areas 22 of the display panel 12 and is given to the right eye of the viewer.

  In the display device 10, the light of the second polarization component output from each of the plurality of second light sources 34 is refracted by the lenticular lens 16 in the direction of the second viewpoint corresponding to the left eye of the viewer. The light of the second polarization component refracted by the lenticular lens 16 passes through the plurality of second display areas 24 of the display panel 12 and is given to the left eye of the viewer.

  Here, the display panel 12 displays the right-eye image in the plurality of first display areas 22. Further, the display panel 12 displays the left-eye image in the plurality of second display areas 24. Accordingly, the display device 10 provides the right eye image displayed in the plurality of first display areas 22 to the first viewpoint corresponding to the right eye of the viewer, and the first eye corresponding to the left eye of the viewer. The left-eye images displayed in the plurality of second display areas 24 can be given to the two viewpoints.

  Thereby, according to the display device 10, a stereoscopic image can be observed by a naked eye viewer who does not use dedicated glasses. And according to the display apparatus 10, since the lenticular lens 16 is used instead of a large single lens, the display surface can be enlarged and further thinned.

  FIG. 4 shows a configuration of the display device 10 according to the first modification. The display device 10 according to the present modification has substantially the same configuration and function as the display device 10 described in FIGS. 1 to 3, and therefore has substantially the same configuration and function as the members described in FIGS. 1 to 3. The same reference numerals are given to the members, and the description will be omitted except for the differences.

  The first display device 10 further includes a detection unit 52 and a change unit 54. In the present modification, the plurality of first light sources 32 and the plurality of second light sources 34 of the light source panel 14 are provided to be movable in the horizontal direction with respect to the display panel 12. In this case, the plurality of first light sources 32 and the plurality of second light sources 34 may be movable integrally with the lenticular lens 16.

  The detection unit 52 detects the position of the viewer. For example, the detection unit 52 recognizes the viewer's face and head taken by the camera, and detects the positions of the right and left eyes of the viewer with respect to the display panel 12.

  The changing unit 54 moves the plurality of first light sources 32 and the plurality of second light sources 34 in the horizontal direction of the display panel 12 according to the detected position of the viewer, Change the orientation of the second viewpoint. As an example, the changing unit 54 stores in advance a correspondence relationship between the position of the viewer and the moving position of the light source panel 14 in a table or the like, and based on the detected position of the viewer and the contents of the table, a plurality of changes are made. The positions of the first light source 32 and the plurality of second light sources 34 are moved. Moreover, the change part 54 may move the some 1st light source 32 and the some 2nd light source 34 collectively, and may move each separately.

  According to such a display device 10, it is possible for the viewer to observe a stereoscopic image from a free position with respect to the display surface. Moreover, according to such a display device 10, a viewer can also move during observation of a stereoscopic image.

  In addition, each of the plurality of first light sources 32 and the plurality of second light sources 34 is densely arranged corresponding to the entire back surface of the display panel 12, and is configured so that lighting and extinguishing are controlled independently. There may be. In this case, the changing unit 54 individually controls lighting and extinguishing of the plurality of first light sources 32 and the plurality of second light sources 34.

  The change unit 54 performs control according to the detected position of the viewer, and changes the region that emits light of the first polarization component and the region that emits light of the second polarization component. And the light source panel 14 changes the boundary position between the adjacent 1st light source 32 and the 2nd light source 34 in the some 1st light source 32 and the some 2nd light source 34 under control of the change part 54. Thus, the irradiation direction of the light of the first polarization component and the light of the second polarization component is changed. According to the display device 10 according to such a modification, the viewer can observe a stereoscopic image from a free position.

  FIG. 5 shows a configuration of the display device 10 according to the second modification. Note that the display device 10 according to the present modification has substantially the same configuration and function as the display device 10 described in FIGS. 1 to 4, and therefore has substantially the same configuration and function as the members described in FIGS. 1 to 4. The same reference numerals are given to the members, and the description will be omitted except for the differences.

  The display device 10 according to the present modification provides different stereoscopic images corresponding to the respective viewpoints to a plurality of observers who are not wearing dedicated glasses for image separation and are observed from the respective viewpoints.

  In this example, the display device 10 provides a stereoscopic image corresponding to each viewpoint to the first observer and the second observer. That is, the display device 10 gives the first image for the right eye to the first viewpoint corresponding to the right eye of the first viewer, and the third viewpoint corresponding to the left eye of the first viewer. Gives a first image for the left eye. In addition, the display device 10 provides the second image for the right eye to the second viewpoint corresponding to the right eye of the second viewer, and the fourth viewpoint corresponding to the left eye of the second viewer. Gives a second image for the left eye.

  The first image for the right eye is an image observed when one subject is viewed from a position corresponding to the right eye of the first viewer. The first image for the left eye is an image observed when one subject is viewed from a position corresponding to the left eye of the first viewer. The second image for the right eye is an image observed when one subject is viewed from a position corresponding to the right eye of the second viewer. The second image for the left eye is an image observed when one subject is viewed from a position corresponding to the left eye of the second viewer. These images may be images actually taken by a camera or images generated by computer processing or the like.

  The display device 10 includes a display panel 12, a light source panel 14, a lenticular lens 16, and a light source control unit 74.

  The display panel 12 displays the first image and the second image alternately. More specifically, the display panel 12 displays a first image for the right eye in a plurality of first display regions 22 that transmit the first polarization component and a plurality of second transmissions that transmit the second polarization component at the first timing. 2 A first image for the left eye is displayed in the display area 24. The display panel 12 displays the second image for the right eye in the plurality of first display areas 22 and the second image for the left eye in the plurality of second display areas 24 at the second timing.

  The light source panel 14 includes a plurality of first light sources 32 and a plurality of third light sources 62 that irradiate the display panel 12 with light of the first polarization component from the back surface. As an example, the plurality of first light sources 32 and the plurality of third light sources 62 are alternately arranged in the horizontal direction of the display panel 12.

  Furthermore, the light source panel 14 includes a plurality of second light sources 34 and a plurality of fourth light sources 64 that irradiate the display panel 12 with light of the second polarization component from the back surface. As an example, the plurality of second light sources 34 and the plurality of fourth light sources 64 are alternately arranged in the horizontal direction of the display panel 12.

  As an example, each of the plurality of first light sources 32, the plurality of second light sources 34, the plurality of third light sources 62, and the plurality of fourth light sources 64 extends in the vertical direction of the display panel 12 from the upper end to the lower end of the display panel 12. The display panel 12 is arranged from the right end to the left end. Thereby, each of the plurality of first light sources 32, the plurality of second light sources 34, the plurality of third light sources 62, and the plurality of fourth light sources 64 can irradiate uniform light in the vertical direction of the display panel 12. .

  The lenticular lens 16 refracts the light from the plurality of first light sources 32 in the first viewpoint direction, and the light transmitted through the plurality of first display regions 22 corresponds to the first eye of the first viewer. Give to the perspective. In addition, the lenticular lens 16 refracts light from the plurality of second light sources 34 in the second viewpoint direction, and corresponds to light transmitted through the plurality of first display regions 22 to the right eye of the second viewer. Give to the second viewpoint.

  The lenticular lens 16 refracts light from the plurality of third light sources 62 in the direction of the third viewpoint, and transmits light transmitted through the plurality of second display regions 24 to the first eye corresponding to the left eye of the first viewer. Give to the perspective. In addition, the lenticular lens 16 refracts light from the plurality of fourth light sources 64 in the fourth viewpoint direction, and corresponds to the light transmitted through the plurality of second display regions 24 to the left eye of the second viewer. Give to 4th viewpoint.

  The light source control unit 74 controls light emission and extinction of each of the plurality of first light sources 32, the plurality of second light sources 34, the plurality of third light sources 62, and the plurality of fourth light sources 64. More specifically, the light source control unit 74 turns on the plurality of first light sources 32 and turns off the plurality of second light sources 34 at the first timing. Furthermore, the light source control unit 74 turns on the plurality of third light sources 62 and turns off the plurality of fourth light sources 64 at the first timing.

  In addition, the light source control unit 74 turns on the plurality of second light sources 34 and turns off the plurality of first light sources 32 at the second timing. Further, the light source control unit 74 turns on the plurality of fourth light sources 64 and turns off the plurality of third light sources 62 at the second timing.

  In such a display device 10, the light of the first polarization component output from each of the plurality of first light sources 32 is directed in the direction of the first viewpoint corresponding to the right eye of the first viewer by the lenticular lens 16. Refracted. Then, the light of the first polarization component passes through the plurality of first display areas 22 of the display panel 12 and is given to the right eye of the first viewer.

  In the display device 10, the light of the second polarization component output from each of the plurality of third light sources 62 is refracted by the lenticular lens 16 in the direction of the third viewpoint corresponding to the left eye of the first viewer. Is done. Then, the light of the second polarization component passes through the plurality of second display areas 24 of the display panel 12 and is given to the left eye of the first viewer.

  In the display device 10, the light of the first polarization component output from each of the plurality of second light sources 34 is refracted by the lenticular lens 16 in the direction of the second viewpoint corresponding to the right eye of the second viewer. Is done. The light of the first polarization component passes through the plurality of first display areas 22 of the display panel 12 and is given to the right eye of the second viewer.

  In the display device 10, the light of the second polarization component output from each of the plurality of fourth light sources 64 is refracted by the lenticular lens 16 in the direction of the fourth viewpoint corresponding to the left eye of the second viewer. Is done. Then, the light of the second polarization component passes through the plurality of second display areas 24 of the display panel 12 and is given to the left eye of the second viewer.

  Here, at the first timing, the light source control unit 74 turns on the plurality of first light sources 32 and the plurality of third light sources 62, and the display panel 12 displays the first image for the right eye in the first display region 22. The first image for the left eye is displayed in the second display area 24. Thereby, the display device 10 gives the first image for the right eye displayed in the plurality of first display areas to the first viewpoint corresponding to the right eye of the first viewer at the first timing, The first image for the left eye displayed in the plurality of second display areas can be given to the third viewpoint corresponding to the left eye of the first viewer.

  Further, at the second timing, the light source control unit 74 lights the plurality of second light sources 34 and the plurality of fourth light sources 64, and the display panel 12 displays the second image for the right eye in the first display region 22. Then, the second image for the left eye is displayed in the second display area 24. Thereby, the display device 10 gives the second image for the right eye displayed in the plurality of first display areas to the second viewpoint corresponding to the right eye of the second viewer at the second timing, The second image for the left eye displayed in the plurality of second display areas can be given to the fourth viewpoint corresponding to the left eye of the second viewer.

  At the first timing, the light source control unit 74 turns off the plurality of second light sources 34 and the plurality of fourth light sources 64. Therefore, the display device 10 does not give any image to the second viewer at the first timing. Further, at the second timing, the light source control unit 74 turns off the plurality of first light sources 32 and the plurality of third light sources 62. Thereby, the display device 10 does not give any image to the first viewer at the second timing.

  Then, the display device 10 alternately switches the first timing and the second timing at a high speed (for example, every frame) to such an extent that the viewer cannot recognize it. Thereby, according to the display apparatus 10, the stereoscopic image corresponding to each viewpoint can be provided with respect to the 1st observer and 2nd observer who do not wear the spectacles for image separation.

  Note that the display device 10 according to the present modification may give a stereoscopic image corresponding to the viewpoint of each viewer to three or more viewers. In this case, the light source panel 14 emits a plurality of light sources for the right eye that irradiate light of the first polarization component from the back surface of the display panel 12 and light of the second polarization component corresponding to each of three or more viewers. It further has a plurality of light sources for the left eye to irradiate. In addition, the lenticular lens 16 gives the light of a plurality of right eye light sources corresponding to each viewer to the right eye of the corresponding viewer, and the plurality of left eye light sources corresponding to each viewer. Light is applied to the left eye of the corresponding viewer.

  Then, the light source control unit 74 sequentially assigns timings to each of the three or more viewers, and turns on the right eye light source and the left eye light source corresponding to the viewers assigned at each timing, A light source corresponding to an unassigned viewer is turned off. Then, at each timing, the display panel 12 displays an image to be given to the right eye of the assigned viewer in the first display area, and displays an image to be given to the left eye of the assigned viewer in the second display area. To display. Thereby, the display apparatus 10 can give the three-dimensional image corresponding to each viewer's viewpoint also to three or more viewers.

  In addition, the display device 10 according to the present modification may include the detection unit 52 and the change unit 54 as illustrated in FIG. In this case, the detection unit 52 detects the positions of the first viewer and the second viewer. The changing unit 54 includes a plurality of first light sources 32, a plurality of second light sources 34, a plurality of third light sources 62, and a plurality of first light sources 32, according to the detected positions of the first viewer and the second viewer. Each of the plurality of fourth light sources 64 is moved in the horizontal direction of the display panel 12 to change the directions of the first viewpoint, the second viewpoint, the third viewpoint, and the fourth viewpoint with respect to the display panel 12. Thereby, according to the display apparatus 10, each of a 1st viewer and a 2nd viewer can observe a stereo image from a free position.

  Each of the plurality of first light sources 32, the plurality of second light sources 34, the plurality of third light sources 62, and the plurality of fourth light sources 64 is densely arranged corresponding to the entire back surface of the display panel 12. Each of them may be configured such that lighting and extinguishing are controlled independently. In this case, the changing unit 54 controls the lighting and extinguishing of each of the plurality of first light sources 32 and the plurality of second light sources 34 according to the detected position of the viewer, and thereby the light of the first polarization component. And the region emitting the light of the second polarization component are changed.

  And the light source panel 14 changes the boundary position between the adjacent 1st light source 32 and the 2nd light source 34 in the some 1st light source 32 and the some 2nd light source 34 under control of the change part 54. Thus, the irradiation direction of the light of the first polarization component and the light of the second polarization component is changed. The display device 10 according to such a modification can also allow a viewer to observe a stereoscopic image from a free position.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

  The order of execution of each process such as operations, procedures, steps, and stages in the apparatus, system, program, and method shown in the claims, the description, and the drawings is particularly “before” or “prior to”. It should be noted that the output can be realized in any order unless the output of the previous process is used in the subsequent process. Regarding the operation flow in the claims, the description, and the drawings, even if it is described using “first”, “next”, etc. for convenience, it means that it is essential to carry out in this order. It is not a thing.

DESCRIPTION OF SYMBOLS 10 Display apparatus, 12 Display panel, 14 Light source panel, 16 Lenticular lens, 22 1st display area, 24 2nd display area, 32 1st light source, 34 2nd light source, 42 Lens, 52 Detection part, 54 Change part, 62 Third light source, 64 Fourth light source, 74 Light source controller

Claims (8)

A display panel that displays a first image at a first timing and a second image at a second timing;
A light source panel having a plurality of first light sources and a plurality of second light sources for irradiating the display panel with light from the back surface;
Provided between the display panel and the light source panel, refracts light from the plurality of first light sources in a first viewpoint direction to give to the first viewpoint, and applies light from the plurality of second light sources to a second viewpoint. A lenticular lens that is refracted in a direction and given to the second viewpoint;
Light sources that turn on the plurality of first light sources at the first timing, turn off the plurality of second light sources, turn on the plurality of second light sources at the second timing, and turn off the plurality of first light sources. A control unit;
Equipped with a,
In the display panel, a plurality of first display areas that transmit a first polarization component of incident light and a plurality of second display areas that transmit a second polarization component of incident light are alternately arranged,
The plurality of first light sources and the plurality of second light sources irradiate the display panel with light of the first polarization component from the back surface,
The light source panel further includes a plurality of third light sources and a plurality of fourth light sources that irradiate the display panel with light of the second polarization component from the back surface,
The lenticular lens further refracts light from the plurality of third light sources in a third viewpoint direction to give a third viewpoint, and refracts light from the plurality of fourth light sources in a fourth viewpoint direction. Given to the fourth viewpoint,
The light source controller further turns on the plurality of third light sources at the first timing, turns off the plurality of fourth light sources, turns on the plurality of fourth light sources at the second timing, and A display device for turning off the third light source . The lenticular lens has a plurality of lenses extending in the vertical direction of the display panel,
The display device according to claim 1 , wherein the plurality of lenses are arranged side by side in a horizontal direction of the display panel. The plurality of first light sources and the plurality of third light sources in the light source panel are alternately arranged in a horizontal direction,
It said plurality of second light source and the plurality of fourth light source in the light source panel display device according to claim 1 or 2 are alternately arranged in the horizontal direction. Each of the plurality of first display regions and the plurality of second display regions, extending in the horizontal direction of the display panel, one of claims 1-3 which are alternately arranged in the vertical direction of the display panel 1 The display device according to item . The display device
Giving the first image for the right eye displayed in the plurality of first display areas with respect to the first viewpoint corresponding to the right eye of the first viewer;
Providing the first image for the left eye displayed in the plurality of second display areas with respect to the third viewpoint corresponding to the left eye of the first viewer;
Giving the second image for the right eye displayed in the plurality of first display areas with respect to the second viewpoint corresponding to the right eye of the second viewer;
Any one of to 4 claim 1 to provide a second image for the left eye displayed on the plurality of second display region with respect to the fourth viewpoint corresponding to the left eye of the second viewer The display device described in 1. A detection unit for detecting positions of the first viewer and the second viewer;
The plurality of first light sources, the plurality of second light sources, the plurality of third light sources, and the plurality of fourth light sources according to the detected positions of the first viewer and the second viewer. Each of the display panel is moved in the horizontal direction of the display panel to change the orientation of the first viewpoint, the second viewpoint, the third viewpoint, and the fourth viewpoint with respect to the display panel;
The display device according to claim 5 , further comprising: The light source panel is controlled by the changing unit, and a boundary position between adjacent first light sources and third light sources in the plurality of first light sources and the plurality of third light sources, and the plurality of second light sources. The irradiation direction of the light of the first polarization component and the light of the second polarization component is changed by changing a boundary position between the adjacent second light source and the fourth light source in the light source and the plurality of fourth light sources. The display device according to claim 6 . A display panel that displays a first image at a first timing and a second image at a second timing;
A light source panel having a plurality of first light sources and a plurality of second light sources for irradiating the display panel with light from the back surface;
Provided between the display panel and the light source panel, refracts light from the plurality of first light sources in a first viewpoint direction to give to the first viewpoint, and applies light from the plurality of second light sources to a second viewpoint. A lenticular lens that is refracted in a direction and given to the second viewpoint;
Equipped with a,
In the display panel, a plurality of first display areas that transmit a first polarization component of incident light and a plurality of second display areas that transmit a second polarization component of incident light are alternately arranged,
The light source panel is a display method in a display device further including a plurality of third light sources and a plurality of fourth light sources that irradiate the display panel with light of the second polarization component from the back surface ,
Turning on the plurality of first light sources at the first timing, turning off the plurality of second light sources, turning on the plurality of second light sources at the second timing, turning off the plurality of first light sources ,
The plurality of first light sources and the plurality of second light sources irradiate the display panel with light of the first polarization component from the back surface,
The lenticular lens further refracts light from the plurality of third light sources in a third viewpoint direction to give a third viewpoint, and refracts light from the plurality of fourth light sources in a fourth viewpoint direction. Given to the fourth viewpoint,
Further, the plurality of third light sources are turned on at the first timing, the plurality of fourth light sources are turned off, the plurality of fourth light sources are turned on at the second timing, and the plurality of third light sources are turned off. Display method to make .

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