JP2011215499A - Display device and control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display device configured to trace the horizontal movement of a viewer and form a three-dimensional image at the visual point of the moved position, and to provide a control method.SOLUTION: The display device includes: a light source part wherein a plurality of light sources, which respectively function as a right-eye light source and a left-eye light source, are arrayed; a display part configured to display a right-eye image displayed with the light emitted from the right-eye light source and a left-eye image displayed with the light emitted from the left-eye light source; an optical system configured to condense the display light of each of the right-eye image and the left-eye image into each of areas corresponding to the positions of the right-eye light source and the left-eye light source; and a light source control part configured to, in the case of switching the respective light sources included in the plurality of light sources to function as either of the right-eye light source and the left-eye light source, maintain the function of at least one of the light sources, and also, switch the function of the other light source.

Description

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

As a technology for visually recognizing a stereoscopic image using a transmissive display monitor and a lens, light from the right eye light source and left eye light are irradiated from the back side of the transmissive display monitor with a right eye light source and a left eye light source A technique is known in which light from a light source is imaged on a right eye and a left eye of a viewer by a lens, respectively. For example, the following patent documents describe techniques related to stereoscopic viewing.
Patent Document 1 JP 2009-98589 A

  By the way, for a viewer who is viewing from a position horizontally separated from the image formation position by the lens, light that should be given only to the right eye should leak to the left eye, or should be given only to the left eye Light may leak into the right eye. In this case, the viewer recognizes an image in which the right-eye image and the left-eye image overlap. Thus, depending on the position of the viewer in the horizontal direction, there is a problem that an appropriate image cannot be presented to the eye of the viewer.

  For such a problem, it is also conceivable to provide a plurality of light sources in the horizontal direction and turn on the light sources corresponding to the position of the viewer. However, when the light source is switched, the position of the light source greatly fluctuates, so that an unnatural image is presented to the viewer when the light source is switched.

  In order to solve the above-described problem, in the first aspect of the present invention, a light source unit in which a plurality of light sources that can function as a right eye light source and a left eye light source are arranged, and the right eye light source A display unit for displaying a right-eye image displayed by light and a left-eye image displayed by light from the left-eye light source; and display light for the right-eye image and the left-eye image. An optical system for condensing the light source for the right eye and the light source for the left eye, respectively, and a light source included in the plurality of light sources for the right eye light source and the left eye light source. A display device including a light source control unit that switches the functions of the other light sources while maintaining at least some of the functions of the light sources in the case of switching which function is performed, and a display using such a display device Method provided It is.

  It should be noted that the above summary of the invention does not enumerate all the necessary features of the present invention. In addition, a sub-combination of these feature groups can also be an invention.

1 shows a display device 10 according to the present embodiment. The structure of the display apparatus 10 which concerns on this embodiment is shown. Embodiment of the light source part 14 with which the display apparatus 10 which concerns on this embodiment is equipped is shown. Embodiment of the light source part 14 with which the display apparatus 10 which concerns on this embodiment is equipped is shown. Embodiment of the light source part 14 with which the display apparatus 10 which concerns on this embodiment is equipped is shown. The optical path example of the light given to the viewer 60 from the display apparatus 10 which concerns on this embodiment is shown. The optical path example of the light given to the viewer 60 from the display apparatus 10 which concerns on this embodiment is shown. The optical path example of the light given to the viewer 60 from the display apparatus 10 which concerns on this embodiment is shown. The change of the position of the viewer 60 in the display device 10 according to the present embodiment is shown. A part of the light sources 52 of the light source unit 14 according to the present embodiment is shown. A part of the light sources 52 of the light source unit 14 according to the present embodiment is shown. A part of the light sources 52 of the light source unit 14 according to the present embodiment is shown.

  Hereinafter, the present invention will be described through embodiments of the invention, but the following embodiments do not limit the invention according to the claims. In addition, not all the combinations of features described in the embodiments are essential for the solving means of the invention.

  FIG. 1 shows the entire display device 10 according to the present embodiment. The display device 10 according to the present embodiment includes a light source unit 14, an optical system 16, and a display unit 12. FIG. 2 shows a configuration of 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 eye of the viewer 60, and can display the image for the left eye and give it to the left eye of the viewer 60. Such a display device 10 can make a viewer 60 who does not wear dedicated glasses for image separation, that is, a naked eye viewer 60 observe a stereoscopic image.

  The light source unit 14 irradiates the back surface of the display unit 12 with light. The light irradiated on the back surface of the display unit 12 passes through the display unit 12 and is given to the viewer 60. Thereby, the viewer 60 can view the image displayed on the display unit 12.

  The light source unit 14 includes a plurality of light sources that can function as a right eye light source and a left eye light source, respectively. The light source unit 14 causes each of the light sources to function as a right eye light source 32 that emits light for displaying a right eye image and a left eye light source 34 that emits light for displaying a left eye image. The right eye light source 32 and the left eye light source 34 may be alternately arranged in a predetermined arrangement direction. Hereinafter, the arrangement direction will be described as the horizontal direction.

  Each light source may be provided extending in a direction perpendicular to the horizontal direction. That is, each of the plurality of right eye light sources 32 and the plurality of left eye light sources 34 extends in the vertical direction of the display unit 12 from the upper end to the lower end of the display unit 12 as an example. Each of the plurality of right eye light sources 32 and the plurality of left eye light sources 34 can emit uniform light in the vertical direction of the display unit 12.

  Each light source may emit light of the first polarization component when functioning as the light source 32 for the right eye, and may emit light of the second polarization component when functioning as the light source 34 for the left eye. That is, the plurality of right-eye light sources 32 irradiate light of the first polarization component from the back surface of the display unit 12. The plurality of left-eye light sources 34 irradiate light of the second polarization component from the back surface of the display unit 12.

  The display unit 12 displays a right-eye image displayed by light from the right-eye light source 32 and a left-eye image displayed by light from the left-eye light source 34. The display unit 12 may be a transmissive panel that provides the viewer 60 with a displayed image by transmitting light irradiated from the back side.

  In the display unit 12, a plurality of first display areas 22 that transmit the first polarization component of incident light and a plurality of second display areas 24 that transmit the second polarization component of incident light are alternately arranged. . The display unit 12 may display the right eye image in the first display area and display the left eye image in the second display area. 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. The light of the first polarization component and the light of the second polarization component may be circularly polarized light whose rotation directions are opposite to each other.

  The first display area 22 and the second display area 24 may be provided extending in the horizontal direction and alternately provided in a direction perpendicular to the horizontal direction. For 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 unit 12 and is alternately arranged in the vertical direction (up-down direction) of the display unit 12. The For example, the display unit 12 may include a horizontal line that transmits the light of the first polarization component and a horizontal line that transmits the light of the second polarization component alternately one line at a time. The horizontal line indicates a line having a width corresponding to one pixel in the display unit 12.

  The optical system 16 is provided between the display unit 12 and the light source unit 14. The optical system 16 condenses the light from the plurality of right eye light sources 32 to the first viewpoint corresponding to the right eye of the viewer 60 through the plurality of first display regions 22. Furthermore, the optical system 16 condenses the light from the plurality of left-eye light sources 34 to the second viewpoint corresponding to the left eye of the viewer 60 through the plurality of second display areas 24.

  The optical system 16 may be a lenticular lens. As an example, the lenticular lens has a plurality of lenses 42 that respectively extend in the vertical direction of the optical system 16 from the upper end to the lower end of the optical system 16. The plurality of lenses 42 are arranged side by side in the horizontal direction of the optical system 16 from the right end to the left end of the optical system 16. As a result, the optical system 16 condenses the display light of the right-eye image and the left-eye image in regions corresponding to the positions of the right-eye light source and the left-eye light source, respectively.

  When the viewer 60 moves in the horizontal direction, the light source unit 14 tracks (tracks) the movement and switches the positions of the right eye light source and the left eye light source. Thereby, the display apparatus 10 controls the horizontal position which condenses the display light of the image for right eyes and the image for left eyes according to the position of the viewer 60 in the horizontal direction.

  FIG. 3A to FIG. 3C are front views of the light source unit 14 having a different form in each figure as seen from the front direction. Each of the plurality of light sources is continuously arranged in a predetermined arrangement direction. Here, the arrangement direction refers to a direction in which a plurality of right eye light sources 32 and a plurality of left eye light sources 34 are alternately arranged in the light source unit 14. The arrangement direction may be a horizontal direction.

  3A to 3C, the shape of the light source is indicated by a quadrilateral, but the shape of the light source may not be the shape. Each light source may be a line light source or a point light source indicated by a quadrilateral in the drawing, or may be one or a plurality of point light sources provided at predetermined positions in a quadrilateral region.

  In the embodiment shown in FIG. 3A, the right eye light source 32 and the left eye light source 34 have a quadrilateral shape of equal width extending in the vertical direction. The plurality of right eye light sources 32 and the plurality of left eye light sources 34 are alternately arranged in the horizontal direction.

  In the embodiment shown in FIG. 3B, the right-eye light source 32 and the left-eye light source 34 have a quadrilateral block shape having a predetermined horizontal length and vertical length. The plurality of blocks of the right eye light source 32 and the plurality of blocks of the left eye light source 34 are alternately arranged in a grid pattern in the horizontal direction and the vertical direction.

  In the embodiment shown in FIG. 3C, the right eye light source 32 and the left eye light source 34 have a quadrilateral block shape having a predetermined horizontal length and vertical length. The plurality of blocks for the right eye light source 32 and the plurality of blocks for the left eye light source 34 are alternately arranged in the horizontal direction, and are alternately shifted to the left and right by a half of the lateral length of the quadrilateral in the vertical direction. They are arranged alternately.

  FIG. 4 shows an example of an optical path of light given to the viewer 60 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 right-eye light sources R is refracted by the optical system 16 in the direction of the first viewpoint R 1 corresponding to the right eye of the viewer 60. The Then, the light of the first polarization component refracted by the optical system 16 passes through the plurality of first display areas 22 of the display unit 12 and is given to the right eye of the viewer 60.

  In the display device 10, the light of the second polarization component output from each of the plurality of light sources L for the left eye is directed in the direction of the second viewpoint L 1 corresponding to the left eye of the viewer 60 by the optical system 16. Refracted. Then, the light of the second polarization component refracted by the optical system 16 passes through the plurality of second display areas 24 of the display unit 12 and is given to the left eye of the viewer 60.

  Here, the display unit 12 displays the right-eye image in the plurality of first display areas 22. Further, the display unit 12 displays the left-eye image in the plurality of second display areas 24. Therefore, the display device 10 provides the right eye image displayed in the plurality of first display areas 22 to the first viewpoint R1 corresponding to the right eye of the viewer 60, and the left eye of the viewer 60 is displayed. The left-eye images displayed in the plurality of second display areas 24 can be given to the corresponding second viewpoint L1.

  Thereby, according to the display apparatus 10, a stereoscopic image can be observed with respect to the naked eye viewer 60 who does not use dedicated glasses. According to the display device 10, since a lenticular lens can be used as the optical system 16 instead of a large single lens, the display surface can be increased in size and further thinned.

  Here, a plurality of light sources 52 provided in the light source unit 14 will be described by being divided into a plurality of light source groups 56. Each light source group 56 has a predetermined number of light sources 52 arranged continuously in the horizontal direction. The light source group 56 functions as a right eye light source R and a left eye light source L alternately in the horizontal direction.

  Although the number of light sources constituting the light source group 56 is arbitrary, in the present embodiment, a case where there are four light sources will be described as an example. The light source 52 is not limited to this, but may be a light emitting element such as an LED.

  Each light source 52 included in the light source group 56 can be switched to function as either the right eye light source R or the left eye light source L. In other words, the functions of the right eye light source R and the left eye light source L are not switched for each light source group 56, but are switched for each light source 52 constituting the light source group 56.

  The display device 10 further includes a light source control unit 54 and a position detection unit 58. The position detection unit 58 detects the position of the image viewer 60 in the image. Here, the position of the viewer 60 refers to the position of the viewer 60 in a direction (horizontal direction) parallel to the arrangement direction of the light sources 52. When the position of the viewer 60 changes, the change is detected and a signal is output to the light source controller 54.

  The position detection unit 58 may detect the position of the viewer 60 by irradiating the viewer 60 with invisible light and detecting reflected light from the eyes of the viewer 60. By using invisible light, the position information of the viewer 60 can be detected without disturbing the observation of the viewer 60. Invisible light is, for example, infrared.

  Further, the position detection unit 58 may detect the position of the viewer 60 by detecting reflected light from the eyes of the viewer 60 of the image displayed by the display unit 12. In this case, the position detection unit 58 may detect the reflected light from the eyes of the viewer 60 when the brightness of the image displayed by the display unit 12 is equal to or higher than a predetermined reference value. By providing the reference value, the signal-to-noise ratio when detecting reflected light can be maintained above a certain level. Further, the position detection unit 58 may determine whether or not the light detected from the eyes of the viewer 60 is reflected light of the image based on the image displayed by the display unit 12. For example, the position detection unit 58 compares the color component of the image displayed on the display unit 12 with the color component of the light detected from the eye of the viewer 60, and determines whether the detected light is reflected light of the image. Determine whether.

  The light source control unit 54 switches the function of the light source 52 included in each light source group 56 based on a change in the position of the viewer 60 in the horizontal direction. The light source control unit 54 changes the function of the light source 52 included in the light source group 56 from the right-eye light source R to the left-eye light source L according to the position information of the viewer 60 given from the position detection unit 58, or Switch to the opposite. In other words, the light source control unit 54 switches the function of the light source 52 so as to track (track) the movement of the viewer 60 and focus the light of the image on the viewpoint corresponding to the moved eye position. By doing so, the function can be switched in units of light sources, so that tracking can be performed smoothly.

  As described above, the right-eye light source R and the left-eye light source L have different polarization components of the emitted light. The light source unit 14 may include a liquid crystal element that switches the polarization direction of transmitted light before each light source 52. The light source control unit 54 controls the polarization direction of the liquid crystal element in front of each light source 52 based on the change in the position of the viewer 60 in the horizontal direction.

  The light source controller 54 emits light at the first timing when each light source 52 functions as the right-eye light source R, and emits light at the second timing when it functions as the left-eye light source L. You may control to. For example, the light source control unit 54 turns on the plurality of light sources 52 functioning as the right eye light source R and turns off the plurality of light sources 52 functioning as the left eye light source L at the first timing. In addition, the light source control unit 54 turns off the plurality of light sources 52 functioning as the right eye light source R and turns on the plurality of light sources 52 functioning as the left eye light source L at the second timing. The light source control unit 54 may turn on the right-eye light source R and the left-eye light source L alternately and repeatedly.

  The display unit 12 displays the right eye image at the first timing, and displays the left eye image at the second timing. In this case, the display unit 12 does not divide into the first display area 22 and the second display area 24, and alternately displays the right eye image and the left eye image in the common display area. Thereby, the display device 10 displays the right-eye image for the right eye of the viewer 60 at the first timing, and the left eye for the left eye of the viewer 60 at the second timing. An image can be displayed.

  The light source control unit 54 and the display unit 12 alternately switch the first timing and the second timing at high speeds so that the viewer 60 cannot recognize them. Thereby, the display apparatus 10 can provide a stereoscopic image corresponding to the viewpoint to the viewer 60 who does not wear the dedicated glasses for image separation.

  FIG. 5 shows an optical path example of light given from the display device 10 to the viewer 60 when the viewer 60 moves rightward along the horizontal direction by a predetermined distance (L1 to L2). FIG. 6 shows an example of an optical path of light given from the display device 10 to the viewer 60 when the viewer 60 further moves to the right by a predetermined distance (L2 to L3). Note that members having substantially the same configuration and function as those described in FIGS. 1 to 4 are denoted by the same reference numerals, and description thereof will be omitted except for differences.

  As illustrated in FIG. 5, the light source control unit 54 switches the functions of some of the light sources 52 included in each light source group 56 as the position of the viewer 60 changes. In other words, the light source control unit 54 switches at least one of the light sources 52 when switching each of the light sources 52 included in the plurality of light source groups 56 to function as the right eye light source R or the left eye light source L. While maintaining the function, the functions of the other light sources 52 are switched. Specifically, all the functions of the light sources 52 included in the light source group 56 are not switched from the right eye light source R to the left eye light source L or vice versa, but are arranged at the end portions of the respective light source groups 56. The function of the light source 52 is switched. Here, the end refers to a certain region from both ends of the light source group 56 toward the center. The end will be described later in connection with FIGS. 7B-7C.

  In the example in which the viewer 60 has moved from the position shown in FIG. 4 to the position shown in FIG. 5, the light source control unit 54 has one light source 52 located at the right end of the light source group 56 shown in FIG. Switch functions. The functions of the remaining light sources 52 are maintained before and after switching. That is, the light source control unit 54 switches the functions of the other light sources 52 while maintaining the functions of at least some of the light sources 52. In this case, the relative positions of the plurality of light source groups 56 functioning as the right eye light source R and the left eye light source L included in the light source unit 14 are shifted to the left by one light source.

  The optical system 16 condenses the display light of the right-eye image and the left-eye image in regions corresponding to the positions of the right-eye light source R and the left-eye light source L, respectively. That is, the optical system 16 refracts the light emitted from the shifted position of the right eye light source R and gives it to the viewpoint R2 corresponding to the right eye of the viewer 60, and shifts the position of the shifted left eye light source L. The light radiated from is refracted and given to the viewpoint L <b> 2 corresponding to the left eye of the viewer 60.

  As illustrated in FIG. 6, the light source control unit 54 increases the number of light sources 52 whose functions are changed when the viewer 60 moves a long distance (L1 to L3 or R1 to R3). That is, the light source control unit 54 switches the function of the number of light sources 52 according to the amount of change in the position of the viewer 60 in the direction parallel to the horizontal direction at the end of each light source group 56 shown in FIG.

  As shown in FIGS. 4 to 6, the plurality of right-eye light sources R and the plurality of left-eye light sources L have their relative positions in the horizontal direction by an integral multiple of the light source 52 as the viewer 60 moves. Shift to. By doing so, the light source can be moved with higher resolution than the width of the light source group 56 in accordance with the movement amount of the viewer 60, so that tracking can be performed more smoothly.

  7A is a viewpoint position (L1, R1) corresponding to the left and right eyes of the viewer 60 shown in FIG. 4, and a viewpoint position (L2, R2) corresponding to the left and right eyes of the viewer 60 shown in FIG. FIG. 6 shows viewpoint positions (L3, R3) corresponding to the left and right eyes of the viewer 60 shown in FIG. 7B shows a part of the light source 52 of the light source unit 14 when the position of the viewpoint corresponding to the left and right eyes of the viewer 60 is (L1, R1). FIG. 7C shows a part of the light source 52 of the light source unit 14 when the position of the viewpoint corresponding to the left and right eyes of the viewer 60 is (L2, R2). FIG. 7D shows a part of the light source 52 of the light source unit 14 when the position of the viewpoint corresponding to the left and right eyes of the viewer 60 is (L3, R3).

  As illustrated in FIG. 7B, the light source unit 14 includes four light sources 52-1, a light source 52-2, a light source 52-3, and a light source 52-4. When the position of the viewpoint corresponding to the left and right eyes of the viewer 60 is (L1, R1), for example, the light source 52-1, the light source 52-2, the light source 52-3, and the light source 52-4 are all light sources for the right eye. Functions as R. When the viewpoint position (L1, R1) corresponding to the eye of the viewer 60 moves to the viewpoint position (L2, R2) by the distance W in the right direction along the horizontal direction, the position detection unit 58 The movement of the viewer 60 and the amount of movement are detected, and a signal is transmitted to the light source control unit 54.

  The light source control unit 54 determines whether to switch the function of the light source 52 on either the left or right side of the end of each light source group 56 such as the light source R for the right eye according to the moving direction of the viewer 60. In the display device 10 of the present embodiment, the viewer 60 moves in the right direction, so that the function of the light source 52-4 at the right end of the light source group 56 is changed from the right-eye light source R to the left-eye light source L. And switch. At this time, the functions of the other remaining light sources 52-1, 52-2, and 52-3 are maintained.

  When the viewpoint position (L2, R2) corresponding to the eye of the viewer 60 moves to the viewpoint position (L3, R3) by the distance W in the right direction along the horizontal direction, the position detection unit 58 The movement and amount of movement of the viewer 60 are detected, and a signal is transmitted to the light source controller 54. The light source control unit 54 switches the function of the light source 52-3 at the end of the light source group 56 from the right eye light source R to the left eye light source L. At this time, the functions of the other remaining light sources 52-1, 52-2, and 52-4 are maintained.

  On the other hand, when the viewpoint position (L1, R1) corresponding to the eye of the viewer 60 moves to the viewpoint position (L3, R3) by the distance 2W in the right direction along the horizontal direction, the position detection unit 58 Detects the movement and movement amount of the viewer 60 and transmits a signal to the light source control unit 54. The light source control unit 54 switches the functions of the two light sources 52-3 and 52-4 at the end of the light source group 56 from the right-eye light source R to the left-eye light source L. At this time, the functions of the remaining light sources 56-1 and 56-2 are maintained.

  The number of light sources 52 whose functions are simultaneously switched by the light source control unit 54 may be equal to or less than half of the number of light sources 52 included in each light source group 56. For example, when the number of light sources 52 included in the light source group 56 is four as in the present embodiment, the number of light sources whose light source control unit 54 simultaneously switches functions is two or less. By doing so, the functions of an appropriate number of light sources 52 can be switched, so that smooth tracking can be performed.

  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 part, 14 ... Light source part, 16 ... Optical system, 22 ... 1st display area, 24 ... 2nd display area, 32 ... Right eye light source 34... Left eye light source 42. Lens 42. Light source 54. Light source controller 56. Light source group 58. ... Viewer

Claims (12)

A light source unit in which a plurality of light sources capable of functioning as a right eye light source and a left eye light source are arranged,
A display unit for displaying a right-eye image displayed by light from the right-eye light source and a left-eye image displayed by light from the left-eye light source;
An optical system for condensing display light of the right-eye image and the left-eye image in regions according to positions of the right-eye light source and the left-eye light source,
When switching whether each of the light sources included in the plurality of light sources functions as the right eye light source or the left eye light source, while maintaining at least some of the light source functions, A display device comprising: a light source control unit that switches a function of the light source. The light source controller includes a light source group including a predetermined number of the light sources arranged continuously in a predetermined arrangement direction, the light source for the right eye and the light source for the left eye alternately in the arrangement direction. The display device according to claim 1, wherein when the function of each light source is switched and the function of each light source is switched, the function of the light source arranged at the end of each light source group is switched. A position detector for detecting the position of the viewer of the image;
The display device according to claim 2, wherein the light source control unit switches functions of the light sources included in each light source group based on a change in the position of the viewer in a direction parallel to the arrangement direction. The said light source control part switches the function of the said light source of the number according to the variation | change_quantity of the position of the said viewer in the direction parallel to the said array direction in the edge part of each said light source group. Display device. The display device according to claim 4, wherein the number of the light sources whose functions are simultaneously switched by the light source control unit is half or less of the number of the light sources included in each of the light source groups. Each of the light sources emits light at a first timing when functioning as the right eye light source, and emits light at a second timing when functioning as the left eye light source,
The display device according to claim 1, wherein the display unit displays the right-eye image at the first timing and displays the left-eye image at the second timing. Each of the light sources emits light of a first polarization component when functioning as the light source for the right eye, and emits light of a second polarization component when functioning as the light source for the left eye,
The display unit displays the right-eye image in a first display region that transmits the light of the first polarization component, and the left display region of the second display region that transmits the light of the second polarization component. The display device according to claim 1, wherein an ophthalmic image is displayed. Each of the light sources is provided extending in a direction perpendicular to the arrangement direction,
The display device according to claim 7, wherein the first display area and the second display area are provided to extend in the arrangement direction and are alternately provided in a direction perpendicular to the arrangement direction. The display according to claim 3, wherein the position detection unit irradiates the viewer with invisible light, detects reflected light from the eyes of the viewer, and detects the position of the viewer. apparatus. The display device according to claim 3, wherein the position detection unit detects a position of the viewer by detecting reflected light from an eye of the viewer of an image displayed by the display unit. The display according to claim 10, wherein the position detection unit detects the reflected light from the eyes of the viewer when the brightness of an image displayed by the display unit is equal to or higher than a predetermined reference value. apparatus. From a light source unit in which a plurality of light sources capable of functioning as a right eye light source and a left eye light source are arranged, a right eye image displayed by light from the right eye light source, and a left eye light source, respectively A display unit that displays an image for the left eye displayed by the light of, and display light of the image for the right eye and the image for the left eye according to a position of the light source for the right eye and the light source for the left eye And a control method for controlling a display device including an optical system for condensing each of
When switching whether each of the light sources included in the plurality of light sources functions as the right eye light source or the left eye light source, while maintaining at least some of the light source functions, A control method for switching the function of a light source.

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