KR101978790B1 - Multi View Display Device And Method Of Driving The Same - Google Patents

Abstract

  In order to achieve the above object, the present invention provides a multi-view display device, comprising: a multi-view display device detecting a first position of a user; Displaying the 11th to (n1) th images in first to n-th group views generated by the multi-view display device according to the first position; The user moving to a second position and the multi-view display device detecting the second position; Displaying the 12th to (n2) th images in the first to the n-th group views, respectively, according to the second position; Detecting a third position at which the user's view coincides with the outline of the first through nth group views; And moving the 13th to (n3) th images represented in the first to the nth group views.

Description

[0001] The present invention relates to a multi-view display device and a driving method thereof,

The present invention relates to a multi-view display device and a driving method thereof, and more particularly, to a multi-view display device for displaying a stereoscopic image maximizing a stereoscopic viewing area and a natural change of a stereoscopic image according to a viewing direction when the user moves, .

The display has evolved so that the display device responds more vividly, brightly and quickly, such as by changing the liquid crystal array structure of the liquid crystal display or using organic light emitting diodes to satisfy users who demand better display capability. With the development of such a display, the requirements of users have also been increased, and a display which can express a stereoscopic effect with objects with a high contrast ratio, a wide viewing angle range has been required.

The stereoscopic image display is a technique developed to meet the requirements of the above users. It is the core of this technique that the human brain receives visual information through both eyes and recognizes two images as one and recognizes the three-dimensional feeling of things. In order to realize this as a display, two or more cameras are photographed at a distance of 65 mm, which is the average intraocular distance of a person. The user who receives the screen thus recorded and sees the display reproduced through the stereoscopic effect apparatus can feel the three-dimensional feeling of the object as if it actually felt. Among the stereoscopic image apparatuses based on the above, currently known devices are divided into two types: a stereoscopic image display apparatus using special glasses, and a non-eyeglass stereoscopic image display using the change of the path of light.

The stereoscopic image display device using the special glasses is mainly composed of polarized method glasses which make the polarizing direction of the left eye and right eye different from each other, shutter type glasses which alternately open and close alternately the view of the left and right glasses lens, There is an Anaglyph Method eyeglasses that filters out the corresponding color from the glasses using colors that are complementary to each other in themselves.

The stereoscopic image display of the non-eyeglass system includes a parallax barrier method using a barrier that is positioned in front of the screen and dividing the binocular vision of the user, and a semi-circular lens replacing the screen in the parallax barrier system, A lenticular lens system in which different information is transmitted in both directions of the lens, a direct image (integral image) system in which a small lens is arranged all along the horizontal axis and the longitudinal axis, There are high-dimensional stereoscopic images (High Rank 3D) in which two liquid crystal panels divide and transmit images according to a specific formula.

There is a holography type stereoscopic image apparatus in which the satisfaction level of users is much higher without any additional equipment that requires a user to wear as compared with the above method. However, the holographic display is still inadequate for mass use due to the volume problem and high price of the device itself.

Although there is an advantage in that stereoscopic images are implemented without requiring additional devices to be worn by all users including users who use the glasses for correction of vision, the non-stereoscopic image display is more popular than the stereoscopic image display using glasses. not. The reason is that images are displayed by applying a method of blocking or refracting an image output from a display using a film, a panel, a lens, or the like having a vertical pattern engraved in accordance with a viewing angle, Torque and the like.

In order to solve this problem, a user location tracking technique has been proposed which grasps the location of the user and outputs an ideal screen according to the user's location. This technique is based on the fact that infrared rays are absorbed from the eyeball, and the infrared rays are emitted in front of the face or the module, and the reflected infrared rays are analyzed to calculate the position of the eyeball which is not reflected by the infrared ray. Eye-tracking is the main method of finding the direction of the eye by analyzing the mid-face.

As the eye tracking method has been continuously developed, a method of locating a user and illuminating an image has also developed. For example, a view configuration of a conventional multi-view display device will be described with reference to the drawings.

1 is a view showing a formation structure of a view and a user viewing the same.

1 shows a view forming structure 17 by grouping unit views vn1 to vn4 into one group view vn and transmitting the same image cn1 to each group view vn. Group view image format ". This group view image method has the advantage that crosstalk of the stereoscopic image is reduced by outputting the same image cn1 throughout the group view vn and the image with a large difference in difference is naturally expressed. However, since the entire unit view vnm that is dependent on each group view vn outputs the same image cn1, the change of the screen according to the movement of the user 201 is not natural.

2 is a view of another conventional view forming structure and a user viewing the same.

As shown in FIG. 2, images (c11 to cnm) photographed at different positions are displayed in a plurality of unit views vn1 to vnm belonging to one group view vn to form a view forming structure 17, View image format. Since this unit view image method outputs an image suited to the position, a difference in viewing screen according to the movement of the user 201 is relatively natural compared to the group view image method of FIG. However, there is a case where viewing is performed at a point where a plurality of images overlap, so that a crosstalk occurs. Such crosstalk increases as the stereoscopic effect expressed by the image becomes larger, thereby inconveniencing normal viewing.

FIG. 3 is a diagram showing a photographing method when a conventional multi-view content is produced. Generally, multi-view contents are produced by arranging three or more cameras 11 at intervals of 65 mm as shown in FIG. 3, and recording a plurality of images c11, c21, c31, and c41 captured by the camera 11 V11, v21, v31, and v41 of the view (v11, v21, v31, v41).

The present invention relates to a multi-view display device for improving the quality and realism of a stereoscopic image when moving, minimizing a crosstalk phenomenon caused by movement of a user during viewing and improving the naturalness of a stereoscopic image seen through movement, And a method thereof.

In order to achieve the above object, the present invention provides a multi-view display device, comprising: a multi-view display device detecting a first position of a user; Displaying the 11th to (n1) th images in first to n-th group views generated by the multi-view display device according to the first position; The user moving to a second position and the multi-view display device detecting the second position; Displaying the 12th to (n2) th images in the first to the n-th group views, respectively, according to the second position; Detecting a third position at which the user's view coincides with the outline of the first through nth group views; And moving the 13th to (n3) th images represented in the first to the nth group views.

The first through the n-th group views include first through m-th unit views.

When the user is in the first position, the multi-view display device displays the eleventh image in the first to m-th unit views of the first group view, And displays the n1-th image in the first to m-th unit views.

When the user is in the second position, the multi-view display device displays the twelfth image in the first to m-th unit views of the first group view, And displays the n-th image in the first to m-th unit views.

When the user is in the third position, the multi-view display device moves all the thirteenth to n3-th images displayed in the n-th group view by the first to the (m-1) Th 13th to (n-3) -th modulated images in which the images corresponding to the first to the (m-1) -th unit views out of the range are shifted or removed from the direction opposite to the moving direction.

According to another aspect of the present invention, there is provided an information processing apparatus comprising: a sensing unit for sensing a position of a user and generating a position signal; A central control unit for generating a control signal according to the position signal; And a barrier pattern to be transmitted to the first to the n-th group view according to the control signal.

The first through the n-th group views include first through m-th unit views.

If the user is in the first position, the first to n-th images displayed by the display panel are respectively the eleventh to n1-th images, and the barrier pattern may include the eleventh image, To the first to m-th unit views of the n-th group view, and transfers the n-1-th image to the first to m-th unit views of the n-th group view.

When the user is in the second position, the first to n-th images displayed by the display panel are respectively the twelfth to (n2) -th images, and the barrier pattern includes the twelfth image, To the first through the m-th unit views of the n-th group view, and transfers the n-th image to the first through the m-th unit views of the n-th group view.

When the user is in the third position, the first to n-th images displayed by the display panel are respectively the thirteenth to n3-th modulated images, and the barrier pattern is the first to n- To the first through the m-th unit views of the group view, and delivers the n-3-th modulated image to the first through the m-th unit views of the n-th group view.

A multi-view display apparatus and a driving method thereof according to the present invention

First, a two-dimensional image and a three-dimensional image can be changed using a switching panel,

Second, it is possible to reduce the non-stereoscopic, inverse stereoscopic area,

Finally, compared with the related art, it is possible to reduce the difference in the screen change occurring during the moving of the viewer to the utmost, thereby enabling more natural viewing.

FIG. 1 is a diagram showing a group view image method among driving methods of a conventional multi view technology.
2 is a diagram showing a unit view image method among driving methods of a conventional multi view technology.
FIG. 3 is a diagram showing a photographing method when a conventional multi-view content is produced.
FIG. 4 is a diagram illustrating a photographing method when producing a multi-view content according to an embodiment of the present invention.
5 is a diagram illustrating a sensing unit and a user according to an embodiment of the present invention.
6 is a diagram showing a simplification of the imaging method and the system driving according to the embodiment of the present invention.
7 is a view showing an image displayed by each view after moving images and image information displayed by each view according to an embodiment of the present invention.
8 and 9 are views showing driving of a multi-view display device seen at each viewing position according to an embodiment of the present invention.
10 is a view showing an image displayed by each view after moving images and image information displayed by each view according to an embodiment of the present invention.

Specific details for carrying out the present invention will be described in detail below with reference to the drawings.

4 is a diagram for explaining a photographing method according to an embodiment of the present invention. When the contents are produced by adding the m cameras cn2 to cnm inside the main cameras c11 to cn1 arranged at intervals of 65 mm, a view formed on the display panel 21 and passing through the barrier pattern 23 As the display screen of the forming structure 17 increases, the viewable area also increases, so that the multi-view display device can provide a more natural sense of change of the stereoscopic image to the user 201 on the move.

In order to achieve the object of the present invention, a multi-view display device and a driving method thereof are required to reproduce an image photographed by the camera 11. In particular, in the case of photographing as shown in FIG. 4, the images implemented in the display panel 21 are superimposed to cause crosstalk. To prevent this, a multi-view display device ) Are required.

5 is a diagram of a display device for sensing the position of a user. Here, the sensing unit 19 mainly performs eye-tracking and emits infrared light, analyzes the shape of the infrared ray reflected by the pupil using the principle of absorbing the infrared rays, and the absorbed infrared rays, Or a method of analyzing data on an eyeball from a signal input from a camera module, or the like.

The sensing unit 19 is formed on the line A of the bezel 2 forming the display device 1. This is an example of a position for grasping the position of the user, When the sensing portion 19 is formed, this position can be changed.

6 is a block diagram of a photographing method and a multi-view display device according to an embodiment of the present invention.

6 shows an operation structure and a barrier pattern 23 of the sensing part 19, the central control part 105 and the display panel 21 of the display device 1 according to the present invention. The sensing unit 19 senses the position of the user 201 so that the display panel 21 realizes an image corresponding to the position of the user 201 and sends the position information to the central control unit 105.

The central control unit 105 controls the main camera cn1 and the sub cameras cn2, cn3, cn4 corresponding to respective positions of the multi-view contents according to the position information of the user 201 based on the position information received from the sensing unit 19. [ And displays the image information on the display panel 21.

The crosstalk is indicated by a view on both sides adjacent to a certain unit view vnm with the binocular viewpoint of the user 201 facing towards the view forming structure 17. [ Also in the display device according to the present invention, when the binocular viewpoint of the user 201 is the same as the position of the fourth unit view vn4 or the first unit view vn1 formed at both end positions of the nth group view vn Crosstalk may occur during viewing of the user 201. [ In order to prevent this, the central control unit 105 may defer or pull out the order of the image information to be represented in each unit view vnm shown in Fig. More specifically, video information to be displayed in the third unit view vn3 is displayed in place of the image information to be displayed in the fourth unit view vn4 in the both sides of the user 201 viewing the fourth unit view vn4. The image information is to be deferred or the image information is modulated such that the order of the image information is pulled so as to be expressed in the second unit view vn2 instead of the image information to be represented in the first unit view vn1. In this way, the multi view display apparatus according to the present invention can reduce crosstalk as much as possible.

The display panel 21 is a device for outputting a light source having a hue in the present invention and may be a liquid crystal display, an organic light emitting diode display, a field emission display, A display that displays color and light such as a plasma display panel (PDP) may be used. The display panel displays images of the m sub-cameras cn2 to cnm received from the central control unit 105. [ The displayed image is divided into a m-unit view (vnm) through a barrier pattern 23 separating a screen represented by the display panel 21 with a patterned film or liquid crystal filled panel, ) In the left eye and the right eye of the user 201.

Figs. 7 to 10 are specific contents of this embodiment, and will be described with reference to Fig. 6. Fig.

7A, when the center of the binocular of the user 201 is in the first position 211, the sensing unit 19 senses the first position 211 of the user 201 as the input And modulates the result into a position signal and transmits it to the central control unit (105 in Fig. 6).

6, the central control unit 105 reads image information of the main cameras c11, c21, c31, and c41 from the multi-view content based on the received position signal information. The image information of the main cameras c11, c21, c31, and c41 corresponding to the first position 211 read from the multi-view content by the central control unit 105 is transmitted to the pixels forming the display panel 21, And the light expressed in the pixel forms the view forming structure 17 while passing through the barrier pattern 23. At this time, the unit views v11, v12, v13 and v14 depending on the first group view v1 represent the images of the main camera c11 and the unit views v11 , v12, v13 and v14 represent the images of the main camera c21 and the unit views v11, v12, v13 and v14 which depend on the third group view v3 represent the images of the main camera c31 And the unit views v11, v12, v13, and v14 depending on the fourth group view v4 represent images of the main camera c41. The view forming structure 17 described above allows the user 201 at the first position 211 to view the images of the main cameras c11, c21, c31 and c41 instead of the images of the cameras c11 to c44 . However, in the case of the user 201 shown in Fig. 7A, crosstalk can occur because the right eye is looking at the first unit view v21 which is dependent on the second group view v2.

7B is a diagram showing a rearrangement of the order of image information expressed in the view forming structure 17 in order to lower the crosstalk of the screen viewed by the user 201 in the first position 211, .

According to the view forming structure 17 of Fig. 7A, the images represented by the unit views v11 and v21 corresponding to the binocular view direction of the user 201 are the images of the main cameras c11 and c21. Here, since the first unit view v11 belonging to the first group view v1 is located at the beginning of the displayed screen, the user 201 can view only the image of the first main camera c11. However, since the first unit view v21 belonging to the second group view v2 is adjacent to the fourth unit view v14, the user 201 can feel crosstalk during viewing. In order to prevent this, the central control unit 105 may change the order of the image information to be displayed on the display panel 21 and display it.

7B shows a view forming structure 17 in which the central control unit 105 changes the order of the image information to be displayed on the display panel 21 as described above. The unit views v11, v12, v13 and v14 of the first group view v1 shown here are the same as the unit views v12, v13 and v14 of the first group view v1 and the second group view v2 The unit views v21, v22, v23, and v24 of the second group view v2 in FIG. 7B fetch the images represented by the unit view v21 of the second group view v2 in FIG. And the image represented in the unit view v31 of the view (v22, v23, v24) and the third group view (v3). In this way, the image information to be expressed after one unit view vnm is obtained and expressed as shown in FIG. 7B. Inevitably, the image of the unit view v11 of the first group view v1 to be represented in FIG. 7A remains, The image to be represented in the unit view v44 of the group view v4 becomes insufficient. The central control unit 105 of FIG. 6 removes the unit view v11 of the first group view v1 of FIG. 7A that has moved beyond the display area after moving the image information according to the setting, the unit view v11 of the first group view v1 in FIG. 7A may be displayed on the unit view v44 of the fourth group view v4.

Through this process, the user 201 can view deep three-dimensional stereoscopic images with low crosstalk.

8, when the user at the first position 211 moves to the second position 212, the sensing unit 19 inputs the second position 212 of the user 201 through the module , And modulates the result into a position signal and transmits it to the central control unit (105 in Fig. 6).

6, the central control unit 105 reads the image information of each of the cameras c12, c22, c32, and c42 from the multi-view content based on the received position signal information. The image information corresponding to the second position 212 read from the multi-view content by the central control unit 105 is transmitted to and expressed by the pixels forming the display panel 21, To form a view forming structure 17. At this time, the unit views v11, v12, v13 and v14 depending on the first group view v1 represent the images of the sub camera c12 and the unit views v11, v12, v13 and v14 represent the image of the sub camera c22 and the unit views v11, v12, v13 and v14 which depend on the third group view v3 represent the image of the sub camera c32. And the unit views v11, v12, v13 and v14 depending on the fourth group view v4 represent images of the sub camera c42. The view forming structure 17 expressed in this manner allows the user 201 in the second position 212 to view the images of the sub cameras c12, c22, c32, c42 instead of the images of the cameras c11 to c44 .

Accordingly, the user 201 can feel a natural sense of change when moving from the first position 211 to the second position 212, and can view the deep three-dimensional stereoscopic expression with low crosstalk.

9, when the user at the second position 212 moves to the third position 213, the sensing unit 19 inputs the third position 213 of the user 201 through the module , And modulates the result into a position signal and transmits it to the central control unit (105 in Fig. 6).

6, the central control unit 105 reads image information of each of the sub cameras c13, c23, c33, and c43 from the multi view content based on the received position signal information. The image information corresponding to the third position 213 read from the multi-view content by the central control unit 105 is transferred to and displayed on the pixels forming the display panel 21, To form a view forming structure 17. At this time, the unit views v11, v12, v13 and v14 depending on the first group view v1 represent the images of the sub camera c13 and the unit views v11 , v12, v13 and v14 represent the images of the sub camera c23 and the unit views v11, v12, v13 and v14 which depend on the third group view v3 represent the images of the sub camera c33 And the unit views v11, v12, v13, and v14 depending on the fourth group view v4 represent images of the sub camera c43.

Thus, the user 201 can feel a natural sense of change when moving from the second position 212 to the third position 213, and can view the deep three-dimensional stereoscopic expression with low crosstalk.

10A, when the user at the third position 213 moves to the fourth position 214, the sensing unit 19 inputs the fourth position 214 of the user 201 through the module , And modulates the result into a position signal and transmits it to the central control unit (105 in Fig. 6).

6, the central control unit 105 reads image information of each of the sub cameras c14, c24, c34, and c44 from the multi view content based on the received position signal information. The image information corresponding to the fourth position 214 read from the multi-view content by the central control unit 105 is transmitted to and expressed by the pixels forming the display panel 21, To form a view forming structure 17. At this time, the unit views v11, v12, v13 and v14 depending on the first group view v1 represent the images of the sub camera c14 and the unit views v11 , v12, v13 and v14 represent the images of the sub camera c24 and the unit views v11, v12, v13 and v14 which depend on the third group view v3 represent the images of the sub camera c34 And the unit views v11, v12, v13, and v14 depending on the fourth group view v4 represent images of the sub camera c44.

The multi view display device of the present invention for displaying images by modifying the image information and the view forming structure 17 according to the position of the user 201 may be arranged such that the user 201 at the fourth position 212 is located at the center of each camera c11 to c44 (C14, c24, c34, and c44) are displayed so that they can be viewed. However, in the case of the user 201 shown in Fig. 10A, crosstalk can occur because the left eye looks at the fourth unit view v34, which is dependent on the third group view v3.

10B is a diagram showing the rearrangement of the order of the image information expressed in the view forming structure 17 in order to lower the crosstalk of the screen viewed by the user 201 in the fourth position 214, .

According to the view forming structure 17 of Fig. 10A, the images represented by the unit views v34 and v44 coinciding with the binocular view direction of the user 201 are the images of the main cameras c34 and c44. Here, since the fourth unit view v44 belonging to the fourth group view v4 is located at the end of the displayed screen, the user 201 can view only the image of the fourth sub-camera c44. However, since the fourth unit view v34 belonging to the third group view v3 is adjacent to the first unit view v41, the user 201 can feel crosstalk during viewing. In order to prevent this, the central control unit 105 may change the order of the image information to be displayed on the display panel 21 and display it.

10B shows a view forming structure 17 in which the central control unit 105 changes the order of the video information to be displayed on the display panel 21 as described above. The unit views v41, v42, v43 and v44 of the fourth group view v4 shown here are the unit views v34 and v44 of the third group view v3 and the fourth group view v4 of FIG. the unit views v31, v32, v33, and v34 of the third group view v3 in FIG. 10B fetch the images represented by the units v41, v42, and v42 of FIG. V32, and v33 of the view group v24 and the third group view v3. If the image information to be expressed before the unit view vnm is obtained in this way and expressed as shown in FIG. 10B, the image of the unit view v11 in the first group view v1, which is expressed in FIG. 10A, Accordingly, the image that is expressed in the unit view v44 in the fourth group view v4 remains. The central control unit 105 of FIG. 6 removes the image of the unit view v44 of the fourth group view v4 of FIG. 10A that has moved beyond the display area after moving the image information according to the setting, the unit view v11 of the fourth group view v4 in FIG. 10A can be displayed on the unit view v11 in the first group view v1.

In this way, the non-stereoscopic region and the inverse stereoscopic region are minimized, and the crosstalk and the image deviation are minimized, so that there is no inconvenience to the user's viewing.

The present invention is not limited to the above-described contents and examples, and various modifications can be made without departing from the spirit of the present invention.

vn: Control group view vnm: Control unit view
cn1: nth main camera cnm: m camera image
1: Display device 11: Camera
17: view forming structure 19:
105: central control unit 2: bezel unit
21: display panel 23: barrier pattern
201: User

Claims (11)

Sensing a first position of the user;
Displaying the 11th to (n1) th images in first to n-th group views generated by the multi-view display device according to the first position;
The user moving to a second position and the multi-view display device detecting the second position;
And displaying the 12th to (n2) th images in the first to the n-th group views, respectively, according to the second position,
Wherein each of the first through the n-th group views includes first through m-th unit views,
A third position in which the user's viewpoint coincides with the outline of the first through nth group views,
And when the user is in the third position, the multi-view display device moves all of the thirteenth to n3 images displayed in the first to n-th group views by the first to the (m-1) Th 13th to (n-3) -th modulated images shifted or removed from the direction opposite to the moving direction of the image corresponding to the first to the (m-1)
A method of driving a multi-view display device.
delete delete The method of claim 1, wherein when the user is in the first position,
The multi-view display device displays the eleventh image in the first to m-th unit views of the first group view, and displays the n-th image in the first to m-th unit views of the n-th group view And displaying the multi-view display device.
The method of claim 1, wherein when the user is in the second position,
Wherein the multi view display apparatus displays the twelfth image in the first to m-th unit views of the first group view and the n2-th image in the first to m-th unit views of the n-th group view And displaying the multi-view display device.
delete A sensing unit for sensing a position of a user and generating a position signal;
A central control unit for generating a control signal according to the position signal;
A display panel for displaying first to n-th images according to the control signal;
A barrier pattern for separating the first to n-th images and delivering them to first to n-th group views,
/ RTI >
Wherein each of the first through the n-th group views includes first through m-th unit views,
A third position in which the user's viewpoint coincides with the outline of the first through nth group views,
When the user is in the third position,
Wherein the first to n-th images displayed by the display panel are the 13th to (n3)
Wherein the barrier pattern moves the entirety of the thirteenth through n3 th images by the first through the (m-1) -th unit views, and moves the image corresponding to the first through m-1th unit views out of the screen range Th < th > to n < 3 >
Multi-view display device.
delete 8. The method of claim 7,
When the user is in the first position,
Wherein the first to n-th images displayed by the display panel are the 11th to (n1)
Wherein the barrier pattern is a multi-view image that conveys the eleventh image to the first to m-th unit views of the first group view, and transmits the n-th image to the first to m- Display device.
8. The method of claim 7,
When the user is in the second position,
Wherein the first to n-th images displayed by the display panel are respectively the twelfth to (n2)
Wherein the barrier pattern is a multi-view that transfers the twelfth image to the first through the m-th unit views of the first group view, and transfers the n2-th image to the first through the m- Display device.
delete

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