CN101895782A - Stereoscopic display and display method thereof - Google Patents
Stereoscopic display and display method thereof Download PDFInfo
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- CN101895782A CN101895782A CN 201010248586 CN201010248586A CN101895782A CN 101895782 A CN101895782 A CN 101895782A CN 201010248586 CN201010248586 CN 201010248586 CN 201010248586 A CN201010248586 A CN 201010248586A CN 101895782 A CN101895782 A CN 101895782A
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Abstract
The invention relates to a stereoscopic display and a display method thereof. The display method comprises the following steps of: during a first display period in a left eye picture period, reading display data of a left eye picture from a memory unit and accordingly displaying the left eye picture; displaying a black picture during a second display period in the left eye picture period; during a third display period in a right eye picture period, reading display data of a right eye picture from the memory unit and accordingly displaying the right eye picture; and displaying the black picture during a fourth display period in the right eye picture period. Thus, write-in and display time of pictures can be enhanced.
Description
Technical field
The invention relates to a kind of stereo display technique, and particularly relevant for a kind of three-dimensional display and display packing thereof.
Background technology
Along with the progress and prosperity of science and technology, people increase and minimizing never to having only for the enjoyment one of material life and spiritual aspect, so that people wish to realize by display unit the imagination of powerful and unconstrained style, and reach the effect of being personally on the scene.Therefore, how to make display unit present three-dimensional image or image, just become now display device technology and desire most ardently the target that reaches.
With regard to using outward appearance, stereo display technique can roughly be divided into hyperphoria with fixed eyeballs mirror (stereoscopic) and bore hole formula (auto-stereoscopic).Wherein, the stereo display of hyperphoria with fixed eyeballs mirror can be divided into filter goggle (color filter glasses), polaroid glasses (polarizing glasses), shutter glasses modes such as (shutter glasses) altogether.The operation principle of hyperphoria with fixed eyeballs mirror stereo display mainly is to utilize display to show the right and left eyes picture, via the selection of wear-type glasses, allows right and left eyes see the right and left eyes picture respectively, to form stereoscopic vision.
In order to promote the stereo display effect of image, and to prevent the generation of ghost, just generally be designed to open shutter glasses after image shows fully.During a picture, most time is used for video data is write in the picture element, that is the charging interval of picture element.Under the write state of the best, mostly be 32% most in order to the ratio during time of showing is during whole image, so that the brightness of stereoscopic picture plane is subject to the write time of video data.And, if will promote the brightness of stereoscopic picture plane, then must improve brightness backlight, that is increase the brightness of light emitting source or lifting light source, this can cause the cost of display.Moreover, in order to quicken writing of video data, display generally can use (overdriving) technology of overdriving, and overdrive technique can be set up the table of overdriving, to find extremely drive data according to last video data of each picture element and video data instantly.According to above-mentioned, the size of the table of overdriving can for the grey-scale range of picture square, that is the table of overdriving can take bigger memory space.
Summary of the invention
The invention provides a kind of three-dimensional display, can increase the write time of picture, to promote the charging interval of picture element.
The invention provides a kind of display packing of three-dimensional display, can increase the demonstration time of picture, to improve the brightness and the contrast of picture.
The present invention proposes a kind of display packing, is applicable to the three-dimensional display with mnemon.Display packing comprises the following steps: to remember the video data that the unit reads the left eye picture certainly, and show the left eye picture in view of the above during first during the left eye picture shows; During second during the left eye picture shows, show the black picture; During the 3rd during the right eye picture shows, remember the video data that the unit reads the right eye picture certainly, and show the right eye picture in view of the above; During the 4th during the right eye picture shows, show the black picture.
In one embodiment of this invention, the above-mentioned step that shows the left eye picture in view of the above comprises: open three-dimensional display shutter glasses left eyeglass lens and close the right eye eyeglass of shutter glasses; The video data of left eye picture is write the display floater of three-dimensional display.
In one embodiment of this invention, the above-mentioned step that shows the right eye picture in view of the above comprises: open three-dimensional display shutter glasses the right eye eyeglass and close the left eyeglass lens of shutter glasses; The video data of right eye picture is write the display floater of three-dimensional display.
In one embodiment of this invention, the video data of above-mentioned black picture when writing a display floater of three-dimensional display for writing line by line.
In one embodiment of this invention, the video data of above-mentioned black picture is a plurality of picture elements that write display floater simultaneously when writing the display floater of three-dimensional display.
In one embodiment of this invention, the display floater of above-mentioned three-dimensional display is divided into a plurality of viewing areas, and the video data of black picture when writing display floater for writing each viewing area in regular turn.
In one embodiment of this invention, the display floater of above-mentioned three-dimensional display is divided into a plurality of viewing areas, each viewing area is a corresponding time compensation meter respectively, and the video data that writes each viewing area is then adjusted its GTG value according to the time corresponding compensation meter.
In one embodiment of this invention, display packing more comprises: the video data that receives left eye picture and right eye picture; The video data of left eye picture and right eye picture is write mnemon.
The present invention also proposes a kind of three-dimensional display, comprises mnemon, signal processing unit, display floater, shutter glasses, time schedule controller, gate pole driver, source electrode driver.Signal processing unit receives the video data of left eye picture and right eye picture, and couples mnemon and write mnemon with the video data with left eye picture and right eye picture.During first during the left eye picture showed, signal processing unit was from remembering video data and the output that the unit reads the left eye picture.During the 3rd during the right eye picture showed, signal processing unit was from remembering video data and the output that the unit reads the right eye picture.During during second during the left eye picture shows and during the right eye picture the 4th shows, the video data of output black picture.Shutter glasses has left eyeglass lens and right eye eyeglass.Time schedule controller couples signal processing unit and shutter glasses, to receive the video data of left eye picture, right eye picture and black picture.When receiving the video data of left eye picture, time schedule controller opens left eyeglass lens and cuts out the right eye eyeglass.When receiving the video data of right eye picture, time schedule controller opens the right eye eyeglass and cuts out left eyeglass lens.Gate pole driver couples time schedule controller, and is controlled by time schedule controller and exports a plurality of sweep signals in regular turn to drive display floater.Source electrode driver couples time schedule controller, and is controlled by time schedule controller and exports a plurality of driving voltages in regular turn to display floater, wherein the video data of the corresponding left eye pictures of these driving voltages, right eye picture and black picture.
In one embodiment of this invention, above-mentioned signal processing unit comprises data write unit, data-reading unit and black picture generation unit.Data write unit couples mnemon.Data write unit receives the video data of left eye picture and right eye picture, and the video data of left eye picture and right eye picture is write mnemon.Data-reading unit couples mnemon.During first demonstration, data-reading unit is from remembering video data and the output that the unit reads the left eye picture.During the 3rd demonstration, data-reading unit is from remembering video data and the output that the unit reads the right eye picture.Black picture generation unit couples data-reading unit and time schedule controller.Black picture generation unit transmits the video data of left eye picture during first demonstration.Black picture generation unit transmits the video data of right eye picture during the 3rd demonstration.Black picture generation unit is in producing the also video data of output black picture during second demonstration and during the 4th demonstration.
In one embodiment of this invention, above-mentioned display floater is divided into a plurality of viewing areas, each viewing area is a corresponding time compensation meter respectively, and signal processing unit more comprises a time compensating unit, it is coupled to black picture generation unit and time schedule controller, and the time bias unit writes the GTG value of the video data of each viewing area according to each viewing area time corresponding compensation meter adjustment.
In one embodiment of this invention, above-mentioned second show less than first during showing during, the 4th show less than the 3rd during showing during.
In one embodiment of this invention, equal during the first above-mentioned demonstration to equal during the 4th demonstration during second demonstration during the 3rd demonstration.
In one embodiment of this invention, above-mentioned gate pole driver is opened the multirow picture element of display floater line by line in during second demonstration and during the 4th demonstration.
In one embodiment of this invention, above-mentioned gate pole driver is opened a plurality of picture elements of display floater simultaneously in during second demonstration and during the 4th demonstration.
In one embodiment of this invention, above-mentioned display floater is divided into a plurality of viewing areas, and gate pole driver is opened each viewing area in regular turn in during second demonstration and during the 4th demonstration.
Based on above-mentioned, three-dimensional display of the present invention and display packing thereof, it is in left eye picture and right eye picture interbody spacer one black picture, and the write time and the demonstration time of shortening black picture, to promote the write time and the demonstration time of left eye picture and right eye picture.By this, the brightness and the contrast of left eye picture and right eye picture can be promoted, and the size of the table of overdriving can be reduced.
For above-mentioned feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and cooperate appended graphic being described in detail below.
Description of drawings
Fig. 1 is the system schematic according to the three-dimensional display of one embodiment of the invention.
Fig. 2 is that Fig. 1 is according to the left eyeglass lens of the shutter eyeglass of one embodiment of the invention and the driving sequential chart of right eye eyeglass.
Fig. 3 is the area schematic of Fig. 1 according to the display floater 170 of one embodiment of the invention.
Fig. 4 is the schematic diagram according to a plurality of time bias tables of one embodiment of the invention.
Fig. 5 is the flow chart according to the display packing of the three-dimensional display of one embodiment of the invention.
[primary clustering symbol description]
100: three-dimensional display
110: signal processing unit
111: data write unit
113: data-reading unit
115: black picture generation unit
117: the time bias unit
120: mnemon
130: time schedule controller
140: shutter glasses
150: gate pole driver
160: source electrode driver
170: display floater
A1, A2, A3: zone
SC: sweep signal
DP1, DP2, DP3, DP4: during the demonstration
LFD, RFD, BFD: video data
PF1, PF2: during the picture
VD: driving voltage
S510, S520, S530, S540, S550, S560: step.
Embodiment
Fig. 1 is the system schematic according to the three-dimensional display of one embodiment of the invention.Please refer to Fig. 1, in the present embodiment, three-dimensional display 100 comprises signal processing unit 110, mnemon 120, time schedule controller 130, shutter glasses 140, gate pole driver 150, source electrode driver 160 and display floater 170.Signal processing unit 110 couples mnemon 120, and receives the video data LFD of left eye picture or the video data RFD of right eye picture.Signal processing unit 110 sees through mnemon 120 and stores the video data LFD of left eye pictures and the video data RFD of right eye picture, and the video data BFD of the video data RFD of the video data LFD of output left eye picture, right eye picture or a black picture is to time schedule controller 130.
Black picture generation unit 115 can directly transmit the video data LFD of left eye picture or the video data RFD of right eye picture at the video data RFD of video data LFD that receives the left eye picture or right eye picture; When the video data RFD of video data LFD that does not receive the left eye picture or right eye picture, the video data BFD of then exportable black picture.Time bias unit 117 couples black picture generation unit 115 and time schedule controller 130, write time (promptly writing the position of display floater 170) with foundation video data (as the video data LFD of left eye picture and the video data RFD of right eye picture) is carried out brightness (being the GTG value) adjustment to video data, with the luminance difference of compensation because of showing that asynchronism(-nization) causes.
Fig. 2 is that Fig. 1 is according to the left eyeglass lens of the shutter eyeglass of one embodiment of the invention and the driving sequential chart of right eye eyeglass.Please refer to Fig. 1 and Fig. 2, in the present embodiment, picture period P F1 is for showing left eye picture (also being during the left eye picture), and picture period P F2 is for showing right eye picture (also being during the right eye picture).During first shows among the DP1, data-reading unit 113 can be remembered the video data LFD that reads the left eye picture in the unit 120 certainly, be sent to time bias unit 117 through black picture generation unit 115, after time bias unit 117 carries out the video data adjustment, be sent to time schedule controller 130 again.
At the same time, if data write unit 111 receives the video data RFD of right eye picture, in the mnemon of then writing direct 120; If data write unit 111 receives the video data LFD of left eye picture, after reading end, the video data LFD that then waits for the left eye picture in the mnemon 120 writes again.
Among the DP2, data-reading unit 113 can not remembered reading of data in the unit 120 certainly, so that black picture generation unit 115 can not receive any video data during second shows.At this moment, black picture generation unit 115 can produce the video data BFD of black pictures, that is to continue output GTG value be 0 video data, is sent to time schedule controller 130 after time bias unit 117 carries out the video data adjustment.Time schedule controller 130 produces sweep signal SC to open each row picture element of display floater 170 according to the video data BFD control grid driver 150 of black picture, and Controlling Source driver 160 produces the driving voltage VD of video data BFD of corresponding black picture to the picture element of opening, with the video data BFD that writes the black picture to display floater 170.By this, display floater 170 can show the black picture.
What deserves to be mentioned is that when writing the black picture, the opening sequence of each row picture element of display floater 170 can once be opened delegation, that is opens line by line; Perhaps, once open multirow,, once open the picture element in a zone as with a plurality of zones of display floater 170 difference; Moreover, can open all picture elements on the display floater 170 simultaneously.Wherein, the write time of once opening all picture elements is the shortest, and the display quality the best of opening line by line.
During the 3rd shows among the DP3, data-reading unit 113 can be remembered the video data RFD that reads the right eye picture in the unit 120 certainly, be sent to time bias unit 117 through black picture generation unit 115, after time bias unit 117 carries out the video data adjustment, be sent to time schedule controller 130 again.Time schedule controller 130 opens its right eye eyeglass and cuts out its left eyeglass lens according to the video data RFD control shutter glasses 140 of right eye picture.And, time schedule controller 130 produces sweep signal SC opening each row picture element of display floater 170 in regular turn according to the video data RFD control grid driver 150 of right eye picture, and Controlling Source driver 160 produces corresponding driving voltage VD to the picture element of opening.By this, display floater 170 can show the right eye pictures, and the right eye eyeglass of shutter glasses 140 can open and left eyeglass lens can be closed, so that right eye receives the right eye picture.
At the same time, if data write unit 111 receives the video data LFD of left eye picture, in the mnemon of then writing direct 120; If data write unit 111 receives the video data RFD of right eye picture, after reading end, the video data RFD that then waits for the right eye picture in the mnemon 120 writes again.
Among the DP4, DP2 was described during the action of data-reading unit 113, black picture generation unit 115 and time schedule controller 130 showed similar in appearance to second, then repeated no more at this during the 4th shows.According to above-mentioned, because can interval one black picture between left eye picture and right eye picture, so left eye picture and right eye picture do not have the possibility of colour mixture, so that can open left eyeglass lens when writing the left eye picture, can open the right eye eyeglass when writing the right eye picture.By this, can improve the demonstration time of picture, to increase the brightness that picture shows.
As shown in Figure 2 and since second show during DP2 for writing and show the black picture, therefore but not show image can ignore the details of its picture, that is shown picture is near complete black getting final product, cause second demonstration during DP2 can significantly shorten.In view of the above, DP1, therefore write time and the demonstration time that can improve the left eye picture during DP2 can show much smaller than first during second demonstration; Similarly, DP3, therefore write time and the demonstration time that can improve the right eye picture during DP4 can show much smaller than the 3rd during the 4th demonstration.And, in certain embodiments, first show during DP1 can equal the 3rd show during DP3, second show during DP2 can equal the 4th show during DP4 so that the brightness of left eye picture and right eye picture is similar or identical.
Give an example and say, with resolution is that 1280 * 720 display floater (being the HD display floater) is an example, when picture update rate was 120Hz, the conventional stereo display was if come display frame during reserving 5% picture, and then the charging interval of picture element is 10.3 microseconds (μ s); The conventional stereo display is if come display frame during reserving 32% picture, and then the charging interval of picture element is 7.38 microseconds; Charging intervals 9.45 microsecond of picture element of the present invention.With resolution is that 1920 * 1080 display floater (being Fully HD display floater) is an example, and when picture update rate was 120Hz, the conventional stereo display was if come display frame during reserving 5% picture, and then the charging interval of picture element is 7.33 microseconds; The conventional stereo display is if come display frame during reserving 32% picture, and then the charging interval of picture element is 5.24 microseconds; Charging intervals 6.72 microsecond of picture element of the present invention.
Moreover, with overdrive technique, when writing left eye picture or right eye picture, because last picture is fixed as the black picture, that is the GTG value of last picture is all 0, and the table of therefore overdriving can be reduced to the matrix of one-dimensional vector, with the reduction employed memory capacity of table of overdriving.
Because the video data LFD of left eye picture and the video data RFD of right eye picture write to the mode of display floater 170 for writing line by line, therefore the demonstration time of first row can be longer than second row, the demonstration time of second row can be longer than the third line, all the other then by that analogy, and the demonstration time of first row can cause the brightness meeting of whole image inhomogeneous much larger than last column.Therefore, time bias unit 117 can be adjusted the GTG value of video data according to the write time (being write sequence) of video data, also can adjust the GTG value of video data according to the position that writes display floater 170 of video data.Be described further with next.
Fig. 3 is the area schematic of Fig. 1 according to the display floater 170 of one embodiment of the invention.Fig. 4 is the schematic diagram according to a plurality of time bias tables of one embodiment of the invention.Please refer to Fig. 3 and Fig. 4, at this display floater 170 is divided into a plurality of zones (is example with three regional A1, A2 and A3 at this), and the corresponding time compensation meter of each zone difference, that is the corresponding time bias table 1 of regional A1, the corresponding time bias table 2 of zone A2, the corresponding time bias table 3 of zone A3, wherein time bias table 1,2 and 3 GTG value scope are example with 0 ~ 63, but the present invention is not as limit.What deserves to be mentioned is that the line number of regional A1, A2 and A3 can be mutually the same, can also be differing from each other, this can know that usually the knowledgeable adjusts voluntarily according to the characteristic of display floater according to this area, the present invention is not as limit.
When the position that video data write is positioned at regional A1, then carry out the adjustment of GTG value according to time bias table 1; When the position that video data write is positioned at regional A2, then carry out the adjustment of GTG value according to time bias table 2; When the position that video data write is positioned at regional A3, then carry out the adjustment of GTG value according to time bias table 3.According to Fig. 4, the GTG value through compensation of time bias table 1 remains unchanged, the part of time bias table 2 can be higher than original GTG value through the GTG value of compensation, and the part of time bias table 3 can be higher than original GTG value through the GTG value of compensation, and wherein above-mentioned GTG value through compensation is subject to maximum gray value (as GTG value 63).To show same GTG value, the brightness of regional A3 is higher than regional A2, and the brightness of regional A2 is higher than regional A1.And because the demonstration time of regional A1 can be longer than regional A2, the demonstration time of regional A2 can be longer than regional A3, and therefore the brightness meeting of regional A1, A2 and A3 integral body is similar or equal.
According to above-mentioned, can converge whole is the display packing of a three-dimensional display, to be applied to three-dimensional display 100.Fig. 5 is the flow chart according to the display packing of the three-dimensional display of one embodiment of the invention.Please refer to Fig. 5, at first receive the video data (step S510) of left eye picture and right eye picture, and the video data of left eye picture and right eye picture is write mnemon (step S520).During first during the left eye picture shows, remember the video data that the unit reads the left eye picture certainly, and show left eye picture (step S530) in view of the above.During second during the left eye picture shows, show black picture (step S540).During the 3rd during the right eye picture shows, remember the video data that the unit reads the right eye picture certainly, and show right eye picture (step S550) in view of the above.During the 4th during the right eye picture shows, show black picture (step S560).Wherein, the details of above-mentioned steps can be with reference to above-mentioned explanation, and the order of above-mentioned steps is in order to explanation, the execution sequence when not limiting the invention to practical application with this.
In sum, the three-dimensional display of the embodiment of the invention and display packing thereof, it is in left eye picture and right eye picture interbody spacer one black picture, and the write time and the demonstration time of shortening black picture, to promote the write time and the demonstration time of left eye picture and right eye picture.By this, the brightness and the contrast of left eye picture and right eye picture can be promoted, and the size of the table of overdriving can be reduced.And, display floater is divided into a plurality of zones, adjust its GTG value and write each regional video data according to the time corresponding compensation meter, so that picture displayed is more even.
Claims (18)
1. a display packing is applicable to the three-dimensional display with a mnemon, it is characterized in that, comprising: during one first during the left eye picture showed, this mnemon read the video data of a left eye picture certainly, and shows this left eye picture in view of the above;
During one second during this left eye picture shows, show a black picture; During one the 3rd during the right eye picture showed, this mnemon read the video data of a right eye picture certainly, and shows this right eye picture in view of the above; And during one the 4th during this right eye picture shows, show this black picture.
2. display packing according to claim 1 is characterized in that: the step that wherein shows this left eye picture in view of the above comprises: open this three-dimensional display a shutter glasses a left eyeglass lens and close a right eye eyeglass of this shutter glasses; An and display floater that the video data of this left eye picture is write this three-dimensional display.
3. display packing according to claim 1 is characterized in that: the step that wherein shows this right eye picture in view of the above comprises: open this three-dimensional display a shutter glasses a right eye eyeglass and close a left eyeglass lens of this shutter glasses; An and display floater that the video data of this right eye picture is write this three-dimensional display.
4. display packing according to claim 1 is characterized in that: wherein this second show during less than this first show during, the 4th show less than the 3rd during showing during.
5. display packing according to claim 1 is characterized in that: wherein equal during the 3rd demonstration during this first demonstration, equal during the 4th demonstration during this second demonstration.
6. display packing according to claim 1 is characterized in that: wherein the video data of this black picture when writing a display floater of this three-dimensional display for writing line by line.
7. display packing according to claim 1 is characterized in that: wherein the video data of this black picture is that this writes a plurality of picture elements of this display floater simultaneously when writing a display floater of this three-dimensional display.
8. display packing according to claim 1 is characterized in that: wherein a display floater of this three-dimensional display is divided into a plurality of viewing areas, and the video data of this black picture when writing this display floater for writing each those viewing area in regular turn.
9. display packing according to claim 1, it is characterized in that: wherein a display floater of this three-dimensional display is divided into a plurality of viewing areas, each those viewing area is a corresponding time compensation meter respectively, and the video data that writes each those viewing area is then adjusted its GTG value according to the time corresponding compensation meter.
10. display packing according to claim 1 is characterized in that, more comprises: the video data that receives this left eye picture and this right eye picture; And the video data of this left eye picture and this right eye picture write this mnemon.
11. a three-dimensional display is characterized in that, comprising: a mnemon; One signal processing unit, receive the video data of a left eye picture and a right eye picture, and couple this mnemon and write this mnemon with video data with this left eye picture and this right eye picture, during one first during the left eye picture shows, this signal processing unit reads the video data and the output of this left eye picture from this mnemon, during one the 3rd during the right eye picture shows, this signal processing unit reads the video data and the output of this right eye picture from this mnemon, during during one second during this left eye picture shows and during this right eye picture the 4th shows, export the video data of a black picture; One display floater; One shutter glasses has a left eyeglass lens and a right eye eyeglass; Time schedule controller, couple this signal processing unit and this shutter glasses, to receive the video data of this left eye picture, this right eye picture and this black picture, when receiving the video data of this left eye picture, this time schedule controller opens this left eyeglass lens and cuts out this right eye eyeglass, when receiving the video data of this right eye picture, this time schedule controller opens this right eye eyeglass and cuts out this left eyeglass lens; One gate pole driver couples this time schedule controller, and is controlled by this time schedule controller and exports a plurality of sweep signals in regular turn to drive this display floater; And the one source pole driver, couple this time schedule controller, and be controlled by this time schedule controller and export a plurality of driving voltages in regular turn to this display floater, wherein those driving voltages to should the left eye picture, the video data of this right eye picture and this black picture.
12. three-dimensional display according to claim 11, it is characterized in that: wherein this signal processing unit comprises: a data write unit, couple this mnemon, this data write unit receives the video data of this left eye picture and this right eye picture, and the video data of this left eye picture and this right eye picture is write this mnemon; One data-reading unit, couple this mnemon, during this first demonstration, this data-reading unit reads the video data and the output of this left eye picture from this mnemon, during the 3rd demonstration, this data-reading unit reads the video data and the output of this right eye picture from this mnemon; An and black picture generation unit, couple this data-reading unit and this time schedule controller, this black picture generation unit transmits the video data of this left eye picture during this first demonstration, during the 3rd demonstration, transmit the video data of this right eye picture, in during this second demonstration and during the 4th demonstration, produce and export the video data of this black picture.
13. three-dimensional display according to claim 12, it is characterized in that: wherein this display floater is divided into a plurality of viewing areas, each those viewing area is a corresponding time compensation meter respectively, and this signal processing unit more comprises a time compensating unit, it is coupled between this black picture generation unit and this time schedule controller, and this time bias unit writes the GTG value of the video data of each those viewing area according to each those viewing area time corresponding compensation meter adjustment.
14. three-dimensional display according to claim 11 is characterized in that: wherein this second show during less than this first show during, the 4th show less than the 3rd during showing during.
15. three-dimensional display according to claim 11 is characterized in that: wherein equal during the 3rd demonstration during this first demonstration, equal during the 4th demonstration during this second demonstration.
16. three-dimensional display according to claim 11 is characterized in that: wherein this gate pole driver is opened the multirow picture element of this display floater line by line in during this second demonstration and during the 4th demonstration.
17. three-dimensional display according to claim 11 is characterized in that: wherein this gate pole driver is opened a plurality of picture elements of this display floater simultaneously in during this second demonstration and during the 4th demonstration.
18. three-dimensional display according to claim 11 is characterized in that: wherein this display floater is divided into a plurality of viewing areas, and this gate pole driver is opened each those viewing area in regular turn in during this second demonstration and during the 4th demonstration.
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Cited By (9)
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| CN102595156A (en) * | 2011-01-14 | 2012-07-18 | 宏碁股份有限公司 | Image display method and image display system |
| CN102956209A (en) * | 2011-08-29 | 2013-03-06 | 宏碁股份有限公司 | Liquid crystal display device and control method for same |
| CN103002296A (en) * | 2011-09-09 | 2013-03-27 | 联咏科技股份有限公司 | Stereoscopic image display method and stereoscopic image display system |
| CN103051914A (en) * | 2013-01-06 | 2013-04-17 | 青岛海信电器股份有限公司 | 3D (three-dimensional) image display method, 3D image display device and television |
| CN103188512A (en) * | 2011-12-28 | 2013-07-03 | 华晶科技股份有限公司 | Three-dimensional image generation device |
| CN103617785A (en) * | 2013-11-29 | 2014-03-05 | 青岛海信电器股份有限公司 | Three-dimensional liquid crystal display device and display control method |
| CN104183209A (en) * | 2014-09-02 | 2014-12-03 | 深圳市华星光电技术有限公司 | Overdriving method and circuit and display devices |
| WO2015074384A1 (en) * | 2013-11-19 | 2015-05-28 | 京东方科技集团股份有限公司 | Shutter-type three-dimensional image display method, apparatus and system |
| CN106993180A (en) * | 2017-03-29 | 2017-07-28 | 京东方科技集团股份有限公司 | Shutter type three-dimensional image display methods and device |
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| WO2015074384A1 (en) * | 2013-11-19 | 2015-05-28 | 京东方科技集团股份有限公司 | Shutter-type three-dimensional image display method, apparatus and system |
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