Stereoscopic display method and stereoscopic display device
A stereoscopic display device and stereoscopic display technology, which are applied in stereoscopic systems, optics, instruments, etc., can solve problems such as crosstalk, affecting 3D display quality, and 3D scene ghosting.
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Embodiment 1
[0077] Embodiment 1: Slanted Lens Grating
[0078] 1. Model establishment
[0079] 1. Initial model
[0080] In this embodiment, a tilted lens grating is taken as an example. Certainly, the embodiment of the present invention adopts the stereoscopic display technical solution of the tilted lens grating, and may adopt a playback mode that is tracked according to the position of the viewer, or may adopt a fixed-point or fixed-point playback mode, and the embodiment of the present invention does not do Specific restrictions. Based on the above description, the lens grating can obviously be simplified as a slit grating model with aperture ratio δ=100%. The display units P1, P2, etc. can be sub-pixels, and the image display value (information value) can adopt RGB mode, then the display value L of the left eye view and the display value R of the right eye view satisfy: 0≤L, R≤255, Moreover, the RGB direction of the stereoscopic display device is horizontal, and it can also be RG...
Embodiment 2
[0159] Example 2: Vertical slit grating
[0160] In this embodiment, a vertical slit grating is taken as an example, and the projection period of the grating period on the pixel panel is an even multiple of the sub-pixel. At this time, if only the influence of the human visual experience law on crosstalk is considered, the calculation formula (1) can be converted into:
[0161] A=α|P-L| n +β|P-R| n ≥0(6)
[0162] And by adopting a modeling and solving method similar to that in Embodiment 1, it can be obtained:
[0163] α = Tol 1 β = Tol 2
[0164] At this time, the calculation formula (6) can be embodied as:
[0165] A=Tol1|P-L| n +Tol2|P-R| n ≥0(7)
[0166] 1. n=1 and α-β≠0
[0167] From the above calculation formula (7), it can be known that:
[0168] ...
Embodiment 3
[0178] Embodiment 3: Light-splitting glasses-type 3D technology
[0179] In this embodiment, the light-splitting glasses-type 3D technology is taken as an example. Assume that the light leakage rates of the left and right lenses of the glasses are both μ (0≤μ≤1), then according to the definition of the information ratio parameters S1 and S2 seen by the left and right eyes, without considering other light leakage factors, the display area in the left image of the display panel In any display unit in the display area, the information ratios corresponding to the left and right eyes are respectively S1=1-μ, S2=μ, while in any display unit in the display area on the right, the information ratios corresponding to the left and right eyes are respectively S1 =μ, S2=1-μ. At this time, if only the influence of the human visual experience law on crosstalk is considered, the calculation formula (1) can be converted into:
[0180] A=α|P-L| n +β|P-R| n ≥0(8)
[0181] And by adopting a ...
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