CN103379299A - Display method of on-screen display - Google Patents
Display method of on-screen display Download PDFInfo
- Publication number
- CN103379299A CN103379299A CN2012101066007A CN201210106600A CN103379299A CN 103379299 A CN103379299 A CN 103379299A CN 2012101066007 A CN2012101066007 A CN 2012101066007A CN 201210106600 A CN201210106600 A CN 201210106600A CN 103379299 A CN103379299 A CN 103379299A
- Authority
- CN
- China
- Prior art keywords
- eye
- image
- screen
- screen menu
- superimposed
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Images
Abstract
Provided is a display method of an on-screen display (OSD), which is suitable for a glasses-type three dimensional (3D) displayer. The method is characterized in that: to begin with, based on the depth value of the OSD and user distance between user and the glasses-type 3D displayer, calculating offset between a left eye OSD picture and a right eye OSD picture, wherein the content of the left eye OSD picture is the same with the content of the right eye OSD picture; next, based on the offset, superimposing the left eye OSD picture on a left eye image and the right eye OSD picture on a right eye image; and at last, putting the left eye image which is superimposed with the left eye OSD picture and the right eye image which is superimposed with the right eye OSD picture on a screen of the glasses-type 3D displayer through the frame-interlaced, vertical-interlaced or checkerboard-interlaced 3D imaging technique, so that the user senses 3D effect of the OSD through a pair of 3D glasses which is corresponding to the glasses-type 3D displayer.
Description
Technical field
The invention relates to the display packing of a kind of screen menu (on-screen display, OSD), and particularly relevant for a kind of display packing that is applicable to the OSD with 3-D effect of three-dimensional (three-dimensional, the 3D) display of hyperphoria with fixed eyeballs mirror.
Background technology
Existing display all has osd function usually, namely display can be on the image of screen display the image of superposition OSD, this OSD is used for providing the various function settings such as brightness, contrast and volume such as picture.Yet, existing display normally is superimposed to the OSD image position of fixing on the image of screen display, so that if hyperphoria with fixed eyeballs mirror 3D display is when adopting the 3D imaging technique of frame staggered (frame-interlaced), vertical interlaced (vertical-interlaced) or checkerboard type staggered (checkerboard-interlaced), although the user has 3-D effect by the image of putting on corresponding 3D glasses and perceiving screen display, the OSD image of the screen display that perceives does not but have 3-D effect.
Summary of the invention
The object of the invention is to propose the display packing of a kind of OSD, during frame is staggered so that hyperphoria with fixed eyeballs mirror 3D display adopts, vertical interlaced or checkerboard type are staggered 3D imaging technique, the OSD image of screen display that the user perceives has 3-D effect.
For achieving the above object or other purpose, the present invention proposes the display packing of a kind of OSD, is applicable to hyperphoria with fixed eyeballs mirror 3D display.In the display packing of this OSD, at first according to depth value and user and hyperphoria with fixed eyeballs mirror 3D display user distance apart, calculate the side-play amount between left eye OSD image and the right eye OSD image, wherein, the content of left eye OSD image is identical with the content of right eye OSD image.Then, according to side-play amount left eye OSD image is superimposed to a left-eye images and right eye OSD image is superimposed to right-eye image.At last, superposition is had the left-eye images of left eye OSD image and right-eye image that superposition has right eye OSD image is staggered with frame, vertical interlaced or the staggered 3D imaging technique of checkerboard type are rendered on the screen of hyperphoria with fixed eyeballs mirror 3D display, the user is positioned at the place ahead of screen or rear and has 3-D effect at a distance of this depth value by the image that perceives OSD with the corresponding 3D glasses of hyperphoria with fixed eyeballs mirror 3D display whereby.
In another exemplary embodiment of the display packing of OSD, the display packing of OSD further comprises by OSD set depth value.
In another exemplary embodiment of the display packing of OSD, the display packing of OSD further comprises by infrared ray or ultrasonic measuring distance technology and detects user distance.
In another exemplary embodiment of the display packing of OSD, depth value be on the occasion of or negative value, if be positioned at the place ahead of screen on the occasion of user awareness then to the image of OSD, if negative value then user awareness be positioned at the rear of screen to the image of OSD.
In another exemplary embodiment of the display packing of OSD, when depth value be on the occasion of the time, according to side-play amount left eye OSD image is superimposed to left-eye images and right eye OSD image is superimposed to right-eye image, comprise left eye OSD image is superimposed on the left-eye images and the corresponding initial position of screen, and with right eye OSD image be superimposed on the right-eye image with the left side of the corresponding initial position of screen and with the position of initial position at a distance of side-play amount.
In another exemplary embodiment of the display packing of OSD, when depth value be on the occasion of the time, according to side-play amount left eye OSD image is superimposed to left-eye images and right eye OSD image is superimposed to right-eye image, comprise right eye OSD image is superimposed on the right-eye image and the corresponding initial position of screen, and with left eye OSD image be superimposed on the left-eye images with the right side of the corresponding initial position of screen and with the position of initial position at a distance of side-play amount.
In another exemplary embodiment of the display packing of OSD, when depth value is negative value, according to side-play amount left eye OSD image is superimposed to left-eye images and right eye OSD image is superimposed to right-eye image, comprise left eye OSD image is superimposed on the left-eye images and the corresponding initial position of screen, and with right eye OSD image be superimposed on the right-eye image with the right side of the corresponding initial position of screen and with the position of initial position at a distance of side-play amount.
In another exemplary embodiment of the display packing of OSD, when depth value is negative value, according to side-play amount left eye OSD image is superimposed to left-eye images and right eye OSD image is superimposed to right-eye image, comprise right eye OSD image is superimposed on the right-eye image and the corresponding initial position of screen, and with left eye OSD image be superimposed on the left-eye images with the left side of the corresponding initial position of screen and with the position of initial position at a distance of side-play amount.
In another exemplary embodiment of the display packing of OSD, side-play amount comprises horizontal offset and vertical offset, and horizontal offset and vertical offset one of them is non-vanishing at least.
The present invention has side-play amount because adopting between left-eye images superposition left eye OSD image, right-eye image superposition right eye OSD image and left eye OSD image and right eye OSD image, so that hyperphoria with fixed eyeballs mirror 3D display adopt that frame is staggered, during 3D imaging technique that vertical interlaced or checkerboard type are staggered, the OSD image of screen display that the user perceives has 3-D effect.
For above-mentioned and other objects, features and advantages of the present invention can be become apparent, preferred embodiment cited below particularly, and cooperate accompanying drawing, be described in detail as follows.
Description of drawings
Fig. 1 is the schematic diagram of display packing of the OSD of one embodiment of the invention.
Fig. 2 is the schematic diagram of display packing of the OSD of another embodiment of the present invention.
Fig. 3 is the flow chart of display packing of the OSD of one embodiment of the invention.
Fig. 4 to Fig. 6 is the schematic diagram of the 3D imaging technique that adopts of the present invention.
Identifier declaration
1: hyperphoria with fixed eyeballs mirror 3D display
11: screen
The 2:3D glasses
21: left eyeglass lens
22: the right eye eyeglass
DP1, DP2: depth value
DU: user distance
IML: left-eye images
IMR: right-eye image
ODL: left eye OSD image
ODR: right eye OSD image
ODS: the image that perceives OSD
SH: side-play amount
SHX: horizontal offset
SHY: vertical offset
VLL: left eye sight line
VLR: right eye sight line
VPL: left eye viewpoint
VPR: right eye viewpoint
Whether the S31:3D osd function starts
S32: the depth value that reads storage
S33: detect user distance
S34: according to the side-play amount between depth value and user distance calculating left eye OSD image and the right eye OSD image
S35: depth value be on the occasion of or negative value
S36: right eye OSD image is superimposed to initial position on the right-eye image, and left eye OSD image is superimposed to the right side of the initial position on the left-eye images and at a distance of the position of side-play amount
S37: right eye OSD image is superimposed to initial position on the right-eye image, and left eye OSD image is superimposed to the left side of the initial position on the left-eye images and at a distance of the position of side-play amount
S38: have the left-eye images of left eye OSD image and superposition to have the right-eye image of right eye OSD image to render on the screen with the 3D imaging technique superposition.
Embodiment
Fig. 1 is the schematic diagram of display packing of the OSD of one embodiment of the invention.See also Fig. 1, the upper figure of Fig. 1 is the front elevational schematic of hyperphoria with fixed eyeballs mirror 3D display 1, and figure below of Fig. 1 is the schematic top plan view of hyperphoria with fixed eyeballs mirror 3D display 1 and hyperphoria with fixed eyeballs mirror 3D display 1 corresponding 3D glasses 2 and eyes of user.The display packing of this OSD is applicable to hyperphoria with fixed eyeballs mirror 3D display 1, and hyperphoria with fixed eyeballs mirror 3D display 1 adopts that frame is staggered, vertical interlaced or the staggered 3D imaging technique of checkerboard type.
To adopt the staggered 3D imaging technique of frame as example, when the screen 11 of hyperphoria with fixed eyeballs mirror 3D display 1 shows right-eye image, right eye OSD image ODR is superimposed on the right-eye image and screen 11 corresponding initial positions.In the present embodiment, namely be positioned at screen 11 Centromedian positions with screen 11 corresponding initial positions.At this moment, left eyeglass lens 21 blocking light and the right eye eyeglass 22 of 3D glasses 2 pass through light, so that right-eye image and superposition right eye OSD image ODR is thereon only seen by user's right eye.
When the screen 11 of hyperphoria with fixed eyeballs mirror 3D display 1 shows left-eye images, with left eye OSD image ODL be superimposed on the left-eye images with the right side of screen 11 corresponding initial positions and with the position of initial position at a distance of side-play amount SH, wherein, side-play amount SH comprises horizontal offset SHX and vertical offset SHY, and horizontal offset SHX and vertical offset SHY one of them is non-vanishing at least.In the present embodiment, horizontal offset SHX and vertical offset SHY are all non-vanishing.At this moment, the left eyeglass lens 21 of 3D glasses 2 passes through light and right eye eyeglass 22 blocking light, so that left-eye images and superposition left eye OSD image ODL is thereon only seen by user's left eye.
Wherein, also left eye OSD image ODL can be superimposed on the left-eye images and screen 11 corresponding initial positions, and with right eye OSD image ODR be superimposed on the right-eye image with the left side of screen 11 corresponding initial positions and with the position of initial position at a distance of side-play amount SH, in addition, also can be other forms that one of ordinary skill in the art will appreciate that.
Therefore, from user's right eye vision point PR to the right eye sight line VLR between the right eye OSD image ODR, and from user's left eye vision point PL to the left eye sight line VLL between the left eye OSD image ODL, can be in the position intersection of the place ahead of screen 11 one segment distance DP1.Show that when hyperphoria with fixed eyeballs mirror 3D display 1 is staggered the speed of left-eye images and right-eye image is enough when high, under right eye OSD image ODR still remains in state in the right eye, left eye OSD image ODL is then seen by left eye, the right eye OSD image ODR that the user will see right eye only and only the side-play amount SH between the left eye OSD image ODL that sees of left eye produce illusion, think the binocular parallax to a three-dimensional object, and then allow user awareness float at the one segment distance DP1 place, the place ahead of screen 11 to the image ODS of OSD and have 3-D effect.
Fig. 2 is the schematic diagram of display packing of the OSD of another embodiment of the present invention.See also Fig. 2, take hyperphoria with fixed eyeballs mirror 3D display 1 shown in Figure 1 as example, namely in Fig. 2, adopt hyperphoria with fixed eyeballs mirror 3D display 1,3D glasses 2 and the user identical with Fig. 1 and hyperphoria with fixed eyeballs mirror 3D display 1 at a distance of identical user distance DU.When the screen 11 of hyperphoria with fixed eyeballs mirror 3D display 1 shows right-eye image, right eye OSD image ODR is superimposed on the right-eye image and screen 11 corresponding initial positions.In the present embodiment, namely be positioned at screen 11 Centromedian positions with screen 11 corresponding initial positions.At this moment, left eyeglass lens 21 blocking light and the right eye eyeglass 22 of 3D glasses 2 pass through light, so that right-eye image and superposition right eye OSD image ODR is thereon only seen by user's right eye.
When the screen 11 of hyperphoria with fixed eyeballs mirror 3D display 1 shows left-eye images, with left eye OSD image ODL be superimposed on the left-eye images with the left side of screen 11 corresponding initial positions and with the position of initial position at a distance of side-play amount SH, wherein, side-play amount SH comprises horizontal offset SHX and vertical offset SHY, and horizontal offset SHX and vertical offset SHY one of them is non-vanishing at least.In the present embodiment, horizontal offset SHX and vertical offset SHY are all non-vanishing.At this moment, the left eyeglass lens 21 of 3D glasses 2 passes through light and right eye eyeglass 22 blocking light, so that left-eye images and superposition left eye OSD image ODL is thereon only seen by user's left eye.
Wherein, also left eye OSD image ODL can be superimposed on the left-eye images and screen 11 corresponding initial positions, and with right eye OSD image ODR be superimposed on the right-eye image with the right side of screen 11 corresponding initial positions and with initial position at a distance of the position of side-play amount SH in addition, also can be other forms that one of ordinary skill in the art will appreciate that.
Therefore, from user's right eye vision point PR to the right eye sight line VLR between the right eye OSD image ODR, and from user's left eye vision point PL to the left eye sight line VLL between the left eye OSD image ODL, can be in the position intersection of the rear of screen 11 a segment distance DP2.Show that when hyperphoria with fixed eyeballs mirror 3D display 1 is staggered the speed of left-eye images and right-eye image is enough when high, under right eye OSD image ODR still remains in state in the right eye, left eye OSD image ODL is then seen by left eye, the right eye OSD image ODR that the user will see right eye only and only the side-play amount SH between the left eye OSD image ODL that sees of left eye produce illusion, think the binocular parallax to a three-dimensional object, and then allow user awareness be trapped in the one segment distance DP2 place, rear of screen 11 and to have 3-D effect to the image ODS of OSD.
Fig. 3 is the flow chart of display packing of the OSD of one embodiment of the invention.See also Fig. 3, take the hyperphoria with fixed eyeballs mirror 3D display 1 of Figure 1 and Figure 2 as example, at step S31, hyperphoria with fixed eyeballs mirror 3D display 1 judges whether the 3D osd function starts, if not starting then, process ends then continues next step S32 in order to show the OSD image with general fashion if started.
At step S32, hyperphoria with fixed eyeballs mirror 3D display 1 reads the depth value of storage.This depth value can be fixed, and it is stored by factory settings and does not provide the user to set; This depth value also can be adjustable, and its osd function that is provided by display by the user is set and stored.In the present embodiment, this depth value can on the occasion of, its size represents that such as DP1 the image I MS allow the user perceive as shown in Figure 1 OSD is positioned at the one segment distance DP1 place, the place ahead of screen 11; This depth value also can be negative value, and its size is such as DP2, and the image I MS that expression allows the user perceive as shown in Figure 2 OSD is positioned at the one segment distance DP2 place, rear of screen 11.
At step S33, hyperphoria with fixed eyeballs mirror 3D display 1 detects user distance DU by infrared ray or ultrasonic measuring distance technology.
At step S34, hyperphoria with fixed eyeballs mirror 3D display 1 calculates the side-play amount SH between left eye OSD image ODL and the right eye OSD image ODR according to depth value DP1 or DP2 and user distance DU.
At step S35, hyperphoria with fixed eyeballs mirror 3D display 1 judges that the depth value that reads is on the occasion of DP1 or negative value DP2.The depth value that reads when judgement is carried out next step S36 on the occasion of DP1 the time, and when judging that the depth value that reads is negative value DP2 execution next step S37.
At step S36, depth value is on the occasion of DP1, the image I MS that the expression wish allows the user perceive as shown in Figure 1 OSD is positioned at the one segment distance DP1 place, the place ahead of screen 11, therefore right eye OSD image ODR is superimposed on the right-eye image and screen 11 corresponding initial positions, and with left eye OSD image ODL be superimposed on the left-eye images with the right side of screen 11 corresponding initial positions and with the position of initial position at a distance of side-play amount SH, then carry out next step S38.
At step S37, depth value is negative value DP2, the image I MS that the expression wish allows the user perceive as shown in Figure 2 OSD is positioned at the one segment distance DP2 place, rear of screen 11, therefore right eye OSD image ODR is superimposed on the right-eye image and screen 11 corresponding initial positions, and just left eye OSD image ODL be superimposed on the left-eye images with the left side of screen 11 corresponding initial positions and with the position of initial position at a distance of side-play amount SH, then carry out next step S38.
At step S38, superposition is had the left-eye images of left eye OSD image ODL to hyperphoria with fixed eyeballs mirror 3D display 1 and right-eye image that superposition has right eye OSD image ODR is staggered with frame, vertical interlaced or the staggered 3D imaging technique of checkerboard type are rendered on the screen 11, and the user image ODS that perceives OSD by 3D glasses 2 is positioned at the place ahead of screen 11 or rear and has 3-D effect at a distance of depth value DP1 or DP2 whereby.
Fig. 4 to Fig. 6 is the schematic diagram of the 3D imaging technique that adopts of the present invention.See also Fig. 4, it shows has the left-eye images IML of left eye OSD image ODL and right-eye image IMR that superposition has right eye OSD image ODR to render on the screen 11 with the staggered 3D imaging technique of frame superposition.See also Fig. 5, its demonstration has the left-eye images IML of left eye OSD image ODL and superposition to have the right-eye image IMR of right eye OSD image ODR to render on the screen 11 with the 3D imaging technique of vertical interlaced superposition.See also Fig. 6, it shows has the left-eye images IML of left eye OSD image ODL and right-eye image IMR that superposition has right eye OSD image ODR to render on the screen 11 with the staggered 3D imaging technique of checkerboard type superposition.
In sum, the present invention has side-play amount because adopting between left-eye images superposition left eye OSD image, right-eye image superposition right eye OSD image and left eye OSD image and right eye OSD image, so that hyperphoria with fixed eyeballs mirror 3D display adopt that frame is staggered, during 3D imaging technique that vertical interlaced or checkerboard type are staggered, the OSD image of the screen display that the user perceives has 3-D effect.
Although the present invention discloses as above with preferred embodiment; right its is not for restriction the present invention, any those of ordinary skills, without departing from the spirit and scope of the present invention; when can doing a little change and retouching, so protection scope of the present invention is when with being as the criterion that claims were defined.
Claims (9)
1. the display packing of a screen menu is applicable to a hyperphoria with fixed eyeballs mirror three dimensional display, and the display packing of this screen menu comprises:
According to a depth value and a user and this hyperphoria with fixed eyeballs mirror three dimensional display user distance apart, calculate the side-play amount between a left eye screen menu image and the right eye screen menu image, wherein, the content of this left eye screen menu image is identical with the content of this right eye screen menu image;
According to this side-play amount this left eye screen menu image is superimposed to a left-eye images and this right eye screen menu image is superimposed to a right-eye image; And
Superposition is had this left-eye images of this left eye screen menu image and this right-eye image that superposition has this right eye screen menu image is staggered with frame, vertical interlaced or the staggered 3 D developing technology of checkerboard type are rendered on the screen of this hyperphoria with fixed eyeballs mirror three dimensional display, this user is positioned at the place ahead of this screen or rear and has 3-D effect at a distance of this depth value by the image that perceives this screen menu with the corresponding 3D glasses of this hyperphoria with fixed eyeballs mirror three dimensional display whereby.
2. the display packing of screen menu as claimed in claim 1 further comprises by this screen menu and sets this depth value.
3. the display packing of screen menu as claimed in claim 1 further comprises by infrared ray or ultrasonic measuring distance technology and detects this user distance.
4. the display packing of screen menu as claimed in claim 1, wherein, this depth value be on the occasion of or negative value, if be positioned at the place ahead of this screen on the occasion of this user awareness then to the image of this screen menu, if negative value then this user awareness be positioned at the rear of this screen to the image of this screen menu.
5. the display packing of screen menu as claimed in claim 4, wherein, when this depth value be on the occasion of the time, according to this side-play amount this left eye screen menu image is superimposed to this left-eye images and this right eye screen menu image is superimposed to this right-eye image, comprise this left eye screen menu image is superimposed on this left-eye images and the corresponding initial position of this screen, and with this right eye screen menu image be superimposed on this right-eye image with the left side of corresponding this initial position of this screen and with the position of this initial position at a distance of this side-play amount.
6. the display packing of screen menu as claimed in claim 4, wherein, when this depth value be on the occasion of the time, according to this side-play amount this left eye screen menu image is superimposed to this left-eye images and this right eye screen menu image is superimposed to this right-eye image, comprise this right eye screen menu image is superimposed on this right-eye image and the corresponding initial position of this screen, and with this left eye screen menu image be superimposed on this left-eye images with the right side of corresponding this initial position of this screen and with the position of this initial position at a distance of this side-play amount.
7. the display packing of screen menu as claimed in claim 4, wherein, when this depth value is negative value, according to this side-play amount this left eye screen menu image is superimposed to this left-eye images and this right eye screen menu image is superimposed to this right-eye image, comprise this left eye screen menu image is superimposed on this left-eye images and the corresponding initial position of this screen, and with this right eye screen menu image be superimposed on this right-eye image with the right side of corresponding this initial position of this screen and with the position of this initial position at a distance of this side-play amount.
8. the display packing of screen menu as claimed in claim 4, wherein, when this depth value is negative value, according to this side-play amount this left eye screen menu image is superimposed to this left-eye images and this right eye screen menu image is superimposed to this right-eye image, comprise this right eye screen menu image is superimposed on this right-eye image and the corresponding initial position of this screen, and with this left eye screen menu image be superimposed on this left-eye images with the left side of corresponding this initial position of this screen and with the position of this initial position at a distance of this side-play amount.
9. the display packing of screen menu as claimed in claim 1, wherein, this side-play amount comprises a horizontal offset and a vertical offset, and this horizontal offset and this vertical offset one of them is non-vanishing at least.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012101066007A CN103379299A (en) | 2012-04-12 | 2012-04-12 | Display method of on-screen display |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012101066007A CN103379299A (en) | 2012-04-12 | 2012-04-12 | Display method of on-screen display |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN103379299A true CN103379299A (en) | 2013-10-30 |
Family
ID=49463799
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2012101066007A Pending CN103379299A (en) | 2012-04-12 | 2012-04-12 | Display method of on-screen display |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN103379299A (en) |
Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101964915A (en) * | 2009-07-23 | 2011-02-02 | 索尼公司 | The method and the program of receiving equipment, communication system, combination captions and stereo-picture |
| WO2011064913A1 (en) * | 2009-11-27 | 2011-06-03 | パナソニック株式会社 | Video signal processing device and video signal processing method |
| CN102150433A (en) * | 2008-09-18 | 2011-08-10 | 松下电器产业株式会社 | Stereoscopic video playback device and stereoscopic video display device |
| CN102281452A (en) * | 2010-06-13 | 2011-12-14 | 深圳Tcl新技术有限公司 | Method for changing menu convergence position on three-dimensional (3D) television |
-
2012
- 2012-04-12 CN CN2012101066007A patent/CN103379299A/en active Pending
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102150433A (en) * | 2008-09-18 | 2011-08-10 | 松下电器产业株式会社 | Stereoscopic video playback device and stereoscopic video display device |
| CN101964915A (en) * | 2009-07-23 | 2011-02-02 | 索尼公司 | The method and the program of receiving equipment, communication system, combination captions and stereo-picture |
| WO2011064913A1 (en) * | 2009-11-27 | 2011-06-03 | パナソニック株式会社 | Video signal processing device and video signal processing method |
| CN102281452A (en) * | 2010-06-13 | 2011-12-14 | 深圳Tcl新技术有限公司 | Method for changing menu convergence position on three-dimensional (3D) television |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN103595988B (en) | Stereoscopic image display device, image processing device, and image processing method | |
| JP5625979B2 (en) | Display device, display method, and display control device | |
| CN203838470U (en) | Naked eye 3D shooting and displaying device and display thereof | |
| CN106842599B (en) | 3D visual imaging method and glasses for realizing 3D visual imaging | |
| KR101309705B1 (en) | Glasses and 3D image display system employing the same | |
| WO2019104548A1 (en) | Image display method, smart glasses and storage medium | |
| US9204122B2 (en) | Adaptation of 3D video content | |
| US20120188226A1 (en) | Method and system for displaying stereoscopic images | |
| US9628770B2 (en) | System and method for stereoscopic 3-D rendering | |
| US20110188107A1 (en) | Systems and methods for presenting three-dimensional content using photosensitive lenses | |
| US20120120051A1 (en) | Method and system for displaying stereoscopic images | |
| CN109298793B (en) | Screen position adjusting method and device | |
| CN104216126A (en) | Zooming 3D (third-dimensional) display technique | |
| KR20130110798A (en) | Building internal navication apparatus and method for controlling distance and speed of camera | |
| KR101816846B1 (en) | Display apparatus and method for providing OSD applying thereto | |
| JP5500645B2 (en) | Video adjustment device, television receiver, and program | |
| US20130044104A1 (en) | Methods and Apparatus for Displaying an Image with Enhanced Depth Effect | |
| CN103379299A (en) | Display method of on-screen display | |
| TWI519127B (en) | Method for displaying on-screen display | |
| US20120262445A1 (en) | Methods and Apparatus for Displaying an Image with Enhanced Depth Effect | |
| CN111399249A (en) | 2d-3d display with distance monitoring function | |
| CN104432922A (en) | Helmet suitable for virtual reality | |
| KR102242923B1 (en) | Alignment device for stereoscopic camera and method thereof | |
| WO2014199127A1 (en) | Stereoscopic image generation with asymmetric level of sharpness | |
| JP2014053782A (en) | Stereoscopic image data processor and stereoscopic image data processing method |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C02 | Deemed withdrawal of patent application after publication (patent law 2001) | ||
| WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20131030 |