JP5549444B2 - Display device - Google Patents

Description

  The present invention relates to a display device for displaying a stereoscopic image to a viewer.

  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, such a stereoscopic display device cannot simultaneously appreciate a stereoscopic image from a plurality of directions.

In order to solve the above problems, in the first aspect of the present invention, a display panel, a lenticular lens provided on the back surface of the display panel, and a back surface side of the lenticular lens, a plurality of viewpoints are provided. A light source unit having a plurality of light source groups provided corresponding to each of the plurality of light source groups, and each of the plurality of light source groups includes a light source that outputs light passing through the lenticular lens toward a corresponding viewpoint. The light source unit includes a right eye light source group provided corresponding to the right eye of the viewer, and a left eye light source group provided corresponding to the left eye of the viewer, The display panel displays an image for the right eye in a first display region that transmits the first polarization component, displays an image for the left eye in a second display region that transmits the second polarization component, and the right eye light source group includes: , The light of the first polarization component Output, the left-eye light source group provides a display device for outputting light of said second polarization component.

  In the second aspect of the present invention, a display panel, a lenticular lens provided on the back surface of the display panel, and a light source that is provided on the back surface side of the lenticular lens and outputs parallel light passing through the lenticular lens. Including a light source unit, a position detection unit for detecting the position of the viewer, and changing the direction of the lenticular lens according to the position of the viewer detected by the position detection unit, and passing through the lenticular lens And a direction control unit that refracts light in a direction toward the viewer.

  The above summary of the invention does not enumerate all the necessary features of the present invention, and sub-combinations of these feature groups can also be the invention.

The structure of the display apparatus 10 which concerns on this embodiment is shown. Each structure of the display panel 12, the lenticular lens 14, and the light source part 16 with which the display apparatus 10 which concerns on this embodiment is equipped is shown. An example of the structure of the display apparatus 10 which concerns on this embodiment, and the light given to each of several viewers from the display apparatus 10 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, and an example of the light given to each of several viewers from the display apparatus 10 are shown. The structure of the display apparatus 10 which concerns on the 3rd modification of this embodiment, and an example of the light given to each of several viewers from the display apparatus 10 are shown. The structure of the display apparatus 10 which concerns on the 4th modification of this embodiment, and an example of the light given to each of a some area | region from the display apparatus 10 are shown.

  Hereinafter, the present invention will be described through embodiments of the invention. However, the following embodiments do not limit the invention according to the scope of claims, and all combinations of features described in the embodiments are included. 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 lenticular lens 14, and the light source unit 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 to the right eyes of the plurality of viewers, and can display the image for the left eye and give it to the left eyes of the plurality of viewers. Such a display device 10 can cause a plurality of viewers who do not wear dedicated glasses for image separation, that is, a plurality of viewers with naked eyes, to observe a stereoscopic image.

  The display device 10 includes a display panel 12, a lenticular lens 14, and a light source unit 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 lenticular lens 14 is provided on the back surface of the display panel 12. That is, the lenticular lens 14 is provided between the display panel 12 and the light source unit 16. As an example, the lenticular lens 14 includes a plurality of lenses 32 extending from the upper end to the lower end of the display panel 12 in the vertical direction of the display panel 12. The plurality of lenses 32 are arranged in the horizontal direction of the display panel 12 from the right end to the left end of the display panel 12.

  The light source unit 16 is provided on the back side of the lenticular lens 14. The light source unit 16 irradiates the back surface of the display panel 12 with light through the lenticular lens 14. 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.

  FIG. 3 shows an example of the configuration of the display device 10 according to the present embodiment and light provided from the display device 10 to each of a plurality of viewers.

  The light source unit 16 includes a plurality of right eye light source groups 42 provided corresponding to the right eyes of the plurality of viewers, and a plurality of eyes provided corresponding to the left eyes of the plurality of viewers. Left eye light source group 44. Each of the plurality of right-eye light source groups 42 includes a plurality of right-eye light sources 52 that output parallel light that passes through the lenticular lens 14 and toward the corresponding viewer's right eye. As an example, the plurality of right-eye light sources 52 included in each of the plurality of right-eye light source groups 42 are evenly arranged over the entire back surface of the display panel 12 at a minute interval with respect to the entire back surface of the display panel 12. Irradiate the entire surface with uniform light.

  The lenticular lens 14 refracts the light output from each of the plurality of right eye light source groups 42 in the direction toward the respective right eyes of the plurality of viewers that are the corresponding viewpoints. Thereby, the lenticular lens 14 and the light source part 16 can condense the image for right eyes displayed on the display panel 12 to each right eye of several viewers.

  Each of the plurality of left-eye light source groups 44 includes a plurality of left-eye light sources 54 that output parallel light passing through the lenticular lens 14 toward the corresponding viewer's left eye. The plurality of left-eye light sources 54 included in each of the plurality of left-eye light source groups 44 are uniformly arranged over the entire back surface of the display panel 12 at a minute interval with respect to the entire back surface of the display panel 12. Irradiate light.

  The lenticular lens 14 refracts the light output from each of the plurality of left-eye light source groups 44 in the direction toward the right eye of each of the plurality of viewers that are the corresponding viewpoints. Thereby, the lenticular lens 14 and the light source part 16 can condense the image for left eyes displayed on the display panel 12 to each left eye of several viewers.

  In the present embodiment, the light source unit 16 includes a first right eye light source group 42-1 provided corresponding to the right eye position of the first viewer 101, and the left eye position of the first viewer 101. A first left eye light source group 44-1 provided corresponding to the second viewer 102, a second right eye light source group 42-2 provided corresponding to the right eye position of the second viewer 102, and a second And a second left eye light source group 44-2 provided corresponding to the position of the left eye of the human viewer 102.

  The first right eye light source group 42-1 includes a plurality of first right eye light sources 52-1 that output parallel light of the first polarization component. The lenticular lens 14 refracts each of the light output from the plurality of first right eye light sources 52-1 in the direction of the right eye of the first viewer 101. Thereby, the first right eye light source group 42-1 and the lenticular lens 14 can provide the right eye image to the right eye of the first viewer 101.

  The first left-eye light source group 44-1 includes a plurality of first left-eye light sources 54-1 that output parallel light of the second polarization component. The lenticular lens 14 refracts each of the light output from the plurality of first left eye light sources 54-1 in the direction of the left eye of the first viewer 101. Accordingly, the first left eye light source group 44-1 and the lenticular lens 14 can provide the left eye image to the left eye of the first viewer 101.

  The second right eye light source group 42-2 includes a plurality of second right eye light sources 52-2 that output parallel light of the first polarization component. The lenticular lens 14 refracts each of the lights output from the plurality of second right eye light sources 52-2 in the direction of the right eye of the second viewer 102. Accordingly, the second right eye light source group 42-2 and the lenticular lens 14 can provide the right eye image to the right eye of the second viewer 102.

  The second left eye light source group 44-2 includes a plurality of second left eye light sources 54-2 that output parallel light of the second polarization component. The lenticular lens 14 refracts each of the light output from the plurality of second left-eye light sources 54-2 in the direction of the left eye of the second viewer 102. Accordingly, the second left eye light source group 44-2 and the lenticular lens 14 can provide the left eye image to the left eye of the second viewer 102.

  According to such a display device 10, it is possible to cause each stereoscopic viewer to observe a stereoscopic image without using dedicated glasses. And according to the display apparatus 10, since the several light source and lenticular lens 14 which output parallel light are used, a display surface can be enlarged and it can be made thinner.

  FIG. 4 shows a configuration of the display device 10 according to a first modification of the present embodiment. 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 display device 10 according to this modification further includes a vertical diffusion plate 70. The vertical diffusion plate 70 is provided between the display panel 12 and the light source unit 16. The vertical diffusion plate 70 is preferably provided between the lenticular lens 14 and the light source unit 16. That is, the vertical diffusion plate 70 is provided on the front side of the light source unit 16.

  The vertical diffusion plate 70 diffuses the light output from the light source unit 16 in the vertical direction and irradiates the display panel 12. As a result, the vertical diffusion plate 70 can irradiate the light output from the light source unit 16 on the back surface of the display panel 12 after making it uniform in the vertical direction.

  In addition, each of the plurality of right eye light source groups 42 according to this modification is formed in a strip shape in the horizontal direction. In addition, each of the plurality of left eye light source groups 44 according to this modification is formed in a strip shape in the horizontal direction. Then, each of the plurality of right eye light source groups 42 and the plurality of left eye light source groups 44 is arranged at different positions in the vertical direction.

  For example, the light source unit 16 includes a first band-shaped first right eye light source group 42-1, a first left eye light source group 44-1, a second right eye light source group 42-2 and a second band-shaped each in the horizontal direction. It has a left eye light source group 44-2. The first right eye light source group 42-1, the first left eye light source group 44-1, the second right eye light source group 42-2, and the second left eye light source group 44-2 are arranged in the vertical direction. It is arranged cyclically at different positions.

  Such a light source unit 16 can irradiate the back surface of the display panel 12 with uniform light in the vertical direction via the vertical diffusion plate 70. Such a light source unit 16 can simplify the arrangement and control of the internal light sources.

  FIG. 5 shows an example of the structure of the display device 10 according to the second modification of the present embodiment and the light given from the display device 10 to each of a plurality of viewers. 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 presents different stereoscopic images to the first viewer 101 and the second viewer 102, respectively. As an example, the display device 10 presents different stereoscopic images corresponding to the respective viewpoints to the first viewer 101 and the second viewer 102.

  The display device 10 further includes a display control unit 18 and a light source control unit 20. In this modification, the display panel 12 alternately displays the right eye image and the left eye image at the first viewpoint, and the right eye image and the left eye image at the second viewpoint.

  Note that the right eye image of the first viewpoint is an image observed when the subject is viewed from a position corresponding to the right eye of the first viewer 101. The left eye image of the first viewpoint is an image observed when the subject is viewed from a position corresponding to the left eye of the first viewer 101. The right eye image of the second viewpoint is an image observed when the subject is viewed from a position corresponding to the right eye of the second viewer 102. The image for the left eye at the second viewpoint is an image observed when the subject is viewed from the position corresponding to the left eye of the second viewer 102. These images may be images actually taken by a camera or images generated by computer processing or the like.

  The display control unit 18 controls the display timing of the image on the display panel 12. More specifically, at the first timing, the display control unit 18 displays the right eye image of the first viewpoint in the first display area 22 and displays the left eye image of the first viewpoint in the second display area 24. . Further, at the second timing, the display control unit 18 displays the right eye image of the second viewpoint in the first display area 22 and displays the image of the left eye of the second viewpoint in the second display area 24.

  The light source control unit 20 controls the light emission timing of the light source unit 16. More specifically, the light source control unit 20 lights the first right eye light source group 42-1 and the first left eye light source group 44-1 at the first timing, and the second right eye light source group 42-2. The second left eye light source group 44-2 is turned off. Further, the light source control unit 20 turns off the first right eye light source group 42-1 and the first left eye light source group 44-1 at the second timing, and turns off the second right eye light source group 42-2 and the first right eye light source group 42-2. 2 left eye light source group 44-2 is turned on.

  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 to the first viewer and the second viewer who do not wear the dedicated glasses 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 unit 16 further includes a right eye light source group 42 and a left eye light source group 44 corresponding to each of three or more viewers. The lenticular lens 14 applies the light output from the right eye light source group 42 corresponding to each viewer to the right eye of the corresponding viewer, and the left eye light source group 44 corresponding to each viewer. The light output from is given to the left eye of the viewer.

  Then, the display panel 12 sequentially switches and displays the right-eye images corresponding to each of the plurality of viewers in the first display area 22, and corresponds to each of the plurality of viewers in the second display area 24. The left-eye images are sequentially switched and displayed. Each of the plurality of right eye light source groups 42 outputs the light of the first polarization component at the timing when the right eye image to be provided to the corresponding viewer is displayed. Each of the plurality of left eye light source groups 44 outputs the light of the second polarization component at the timing when the left eye image to be provided to the corresponding viewer is displayed. Thereby, the display apparatus 10 can present the three-dimensional image corresponding to each viewer's viewpoint with respect to three or more viewers.

  In addition, the display device 10 according to the present modification outputs the light of the first polarization component from the first right eye light source group 42-1 and the first left eye light source group 44-1, and the second right eye light source. The configuration may be such that light of the second polarization component is output from the group 42-2 and the second left eye light source group 44-2. In this case, the display panel 12 displays the right eye image of the first viewpoint in the first display area 22 and the right eye image of the second viewpoint in the second display area 24 at the first timing. The display panel 12 displays the left eye image of the first viewpoint in the first display area 22 and the left eye image of the second viewpoint in the second display area 24 at the second timing.

  Furthermore, the light source control unit 20 lights the first right eye light source group 42-1 and the second right eye light source group 42-2 at the first timing, and the first left eye light source group 44-1 and the first right eye light source group 44-1 are turned on. 2 left eye light source group 44-2 is turned off. In addition, the display control unit 18 turns off the first right eye light source group 42-1 and the second right eye light source group 42-2 at the second timing, and turns off the first left eye light source group 44-1 and the first right eye light source group 44-1. 2 left eye light source group 44-2 is turned on. And the display control part 18 switches a 1st timing and a 2nd timing alternately for every flame | frame, for example.

  Also in this case, the display device 10 can cause each of the first viewer 101 and the second viewer 102 who do not use dedicated glasses to observe different stereoscopic images.

  FIG. 6 shows an example of the structure of the display device 10 according to the third modification of the present embodiment and light given from the display device 10 to each of a plurality of viewers. 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 5, and therefore has substantially the same configuration and function as the members described in FIGS. 1 to 5. 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 this modification further includes a position detection unit 80 and a direction control unit 82. In this modification, each of the plurality of right eye light source groups 42 can change the light output direction of the plurality of right eye light sources 52. Further, in the present modification, each of the plurality of left eye light source groups 44 can change the output direction of each of the plurality of left eye light sources 54.

  The position detection unit 80 detects the position of at least one of a plurality of viewers viewing the image displayed by the display device 10. As an example, the position detection unit 80 detects the face of at least one viewer based on an image obtained by imaging a plurality of viewers, and detects the position of the viewer based on the detected face position. For example, the position detector 80 captures an image in the direction of the viewer from the top or side of the display panel 12 with a camera, and detects a face from the captured image.

  In this case, for example, the position detection unit 80 captures reflected light by irradiating a plurality of viewers with invisible light such as infrared light, and based on the captured images, the eyes of at least one viewer Is detected. In this case, the position detection unit 80 detects the reflected light of the eyes of at least one viewer according to the light of the image displayed on the display panel 12, and based on the detected reflected light, at least one person Detect the eyes of the viewer. Thereby, the position detection unit 80 can accurately detect the position of the viewer with respect to the display device 10.

  The direction control unit 82 includes a plurality of right eye light source groups 42 and a plurality of left eye light source groups 44 corresponding to the viewers whose positions have been detected according to the viewer positions detected by the position detection unit 80. The positions of the plurality of right-eye light sources 52 and the plurality of left-eye light sources 54 included in the lenticular lens 14 are moved to change the light output direction from the lenticular lens 14. For example, the direction control unit 82 registers in advance a correspondence relationship between the position of the viewer and the light output directions of the plurality of right eye light sources 52 and the plurality of left eye light sources 54 in a memory or the like. deep. Then, each time the viewer moves, the direction control unit 82 reads the light output direction corresponding to the position of the viewer from the memory, and changes the light output directions of the plurality of light sources.

  According to such a display device 10, even when the viewer moves, the right eye image is accurately given to the right eye and the left eye image is accurately given to the left eye. Can do.

  FIG. 7 shows an example of the configuration of the display device 10 according to the fourth modification example of the present embodiment and light provided from the display device 10 to each of a plurality of regions. Note that the display device 10 according to the present modification employs substantially the same configuration and function as the display device 10 described in FIG. 6, and therefore, members having substantially the same configuration and function as those described in FIG. The description will be omitted except for the differences.

  In this modification, each of the plurality of right eye light source groups 42 and the plurality of left eye light source groups 44 is associated with each of a plurality of divided areas obtained by dividing the viewing area of the display device 10 in the horizontal direction.

  For example, as shown in FIG. 7, the viewing area of the display device 10 has four divided areas in the horizontal direction (first divided area, second divided area, third divided area, and fourth divided area). Is divided into In this case, the light source unit 16 includes four right-eye light source groups 42 (first right-eye light source group 42-1, second right-eye light source group 42-2, and third right eye corresponding to the respective divided regions. It has an eye light source group 42-3 and a fourth right eye light source group 42-4). Further, in this case, the light source unit 16 includes four left-eye light source groups 44 corresponding to the respective divided regions, although not shown.

  In the plurality of right eye light source groups 42 and the plurality of left eye light source groups 44, the plurality of light sources included therein can change the light output direction within the range of the corresponding divided regions. For example, each of the plurality of first right eye light sources 52-1 included in the first right eye light source group 42-1 can change the light output direction within the range of the first divided region. . Each of the plurality of second right-eye light sources 52-2 included in the second right-eye light source group 42-2 can change the light output direction within the range of the second divided region. Each of the plurality of third right-eye light sources 52-3 included in the third right-eye light source group 42-3 can change the light output direction within the range of the third divided region. Each of the plurality of fourth right-eye light sources 52-4 included in the fourth right-eye light source group 42-4 can change the light output direction within the range of the fourth divided region.

  Then, the direction control unit 82, based on the position of the viewer detected by the position detection unit 80, the light of each of the plurality of light sources included in the light source group associated with the divided area where the viewer exists. The output direction is changed to the direction of the corresponding viewer. In this case, the direction control unit 82 turns off the plurality of light sources included in the light source group associated with the divided area where the viewer does not exist. According to such a display device 10, it is possible to allow a viewer at any position in the viewing area to view a stereoscopic image, and to change each change range of a plurality of light sources included in the light source unit 16. Can be small.

  The display device 10 may change the direction of each lens 32 of the lenticular lens 14. In this case, the direction control unit 82 changes the direction of the lenticular lens 14 in accordance with the position of the viewer detected by the position detection unit 80, and directs the light that has passed through the lenticular lens 14 to the viewer. Refract in the direction. Even in this way, the display device 10 can accurately provide the right-eye image to the right eye and accurately provide the left-eye image to the left eye even when the viewer moves.

  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 Lenticular lens, 16 Light source part, 18 Display control part, 20 Light source control part, 22 1st display area, 24 2nd display area, 32 Lens, 42 Right eye light source group, 44 Left eye light Source group, 52 Right eye light source, 54 Left eye light source, 70 Vertical diffuser, 80 Position detector, 82 Direction controller, 101 First viewer, 102 Second viewer

Claims (14)

A display panel;
A lenticular lens provided on the back surface of the display panel;
A light source unit provided on the back side of the lenticular lens and having a plurality of light source groups provided corresponding to each of a plurality of viewpoints;
With
Wherein each of the plurality of light source groups, see contains a light source that outputs light toward the viewing point corresponding through the lenticular lens,
The light source unit is
A right eye light source group provided corresponding to the right eye of the viewer,
A left-eye light source group corresponding to the left eye of the viewer,
Have
The display panel displays a right-eye image in a first display area that transmits a first polarization component, displays a left-eye image in a second display area that transmits a second polarization component,
The right eye light source group outputs light of the first polarization component,
The left eye light source group is a display device that outputs light of the second polarization component . The display device according to claim 1, wherein each of the plurality of light source groups includes a plurality of light sources each outputting parallel light. The light source unit is
A plurality of the right-eye light source group provided corresponding to each of the right eye of a plurality of viewers,
A plurality of the left-eye light source group provided corresponding to each of the left eye of a plurality of viewers,
Have
Each of the plurality of right eye light source groups includes a plurality of right eye light sources that output light that passes through the lenticular lens and is directed to the right eye of the corresponding viewer,
The display device according to claim 2, wherein each of the plurality of left-eye light source groups includes a plurality of left-eye light sources that output light that passes through the lenticular lens and travels toward a corresponding viewer's left eye. 4. The display device according to claim 3, wherein each of the plurality of right eye light source groups and the plurality of left eye light source groups is formed in a strip shape in the horizontal direction and is disposed at different positions in the vertical direction. The display panel displays an image for the right eye at a first timing, displays an image for the left eye at a second timing,
The display device turns on the plurality of right eye light source groups at the first timing, turns off the plurality of left eye light source groups, turns on the plurality of left eye light source groups at the second timing, and The display device according to claim 3, further comprising a light source control unit that turns off the right eye light source group. The display panel sequentially switches and displays images for the right eye corresponding to each of the plurality of viewers in the first display area, and corresponds to each of the plurality of viewers in the second display area. The left-eye images are switched and displayed sequentially,
Each of the plurality of right eye light source groups outputs the light of the first polarization component at the timing when the right eye image to be provided to the corresponding viewer is displayed,
Wherein each of the left-eye light source group, any one of claims 3 to output a light of the second polarization component at the timing when the left-eye image to be provided to the corresponding viewer is displayed for 5 one The display device according to item . The lenticular lens has a plurality of lenses extending in the vertical direction of the display panel,
Wherein the plurality of lenses, the display device according to any one of claims 1 to 6 arranged side by side in the horizontal direction of the display panel. Display device according to any one of claims 1, further comprising a vertical diffuser plate provided 7 between the display panel and the light source unit. A position detector for detecting the position of at least one of a plurality of viewers;
A direction control unit that changes the output direction of each light of a plurality of light sources included in the light source group corresponding to the viewer who has detected the position according to the position of the viewer detected by the position detection unit;
The display device according to any one of claims 1 to 8 , further comprising: The position detecting section, in claim 9 for detecting the face of at least one of the viewer on the basis of the image obtained by imaging the plurality of viewers, to detect the position of the basis views viewer to the position of the detected face The display device described. The display device according to claim 10, wherein the position detection unit irradiates the plurality of viewers with invisible light to capture reflected light, and detects at least one eye of the viewer based on the captured image. . The position detection unit detects reflected light of the eyes of the at least one viewer according to light of an image displayed on the display panel, and based on the detected reflected light, the position detection unit detects the reflected light of the at least one viewer. The display device according to claim 10 , wherein an eye is detected. Each of the plurality of light source groups is associated with each of a plurality of divided areas obtained by dividing the viewing area of the display device in the horizontal direction,
The direction control section, claim to change the output direction of each light in the plurality of light sources viewer is included in the light source group associated with the divided region present in the direction of the corresponding viewer 9 The display device according to any one of 12 to 12 . The display device according to claim 13, wherein the direction control unit turns off the plurality of light sources included in a light source group associated with a divided region in which no viewer exists.

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