Abstract
The smart pseudoscopic-to-orthoscopic conversion (SPOC) algorithm can synthesize a new elemental image array (EIA) using the already captured EIA, but the algorithm only relies on one simulated ray to establish the mapping relationship between the display pixels and the synthetic pixels. This paper improves the SPOC algorithm and proposes the average SPOC algorithm, which fully considers the converging effect of the synthetic lens on the ray. In the average SPOC algorithm, the simulated rays start from the synthetic pixel, pass through the upper and lower edges of the corresponding synthetic lens, and intersect the display lenses, respectively. Then, the value of the synthetic pixel is equivalent to the average value of display pixels, which correspond to the display lenses covered by the rays. Theoretical analysis points out that the average SPOC algorithm can effectively alleviate the matching error between the display pixels and the synthetic pixels, thereby improving the accuracy of the synthetic elemental image array (SEIA) and the reconstruction effect. According to the experimental results we get, the superiority of the average SPOC algorithm is verified.
Highlights
Three-dimensional display [1] has been continuously developed since its appearance, and integral imaging (InI) is a very promising three-dimensional display technology
We improve the smart pseudoscopic-to-orthoscopic conversion (SPOC) algorithm and propose a new elemental image array (EIA) generation algorithm based on the average of pixel information—the average SPOC algorithm, which fully considers the converging effect of the synthetic lens on the rays and reduces the pixel-matching errors, mechanical errors, and man-made errors in the SPOC algorithm
In Principles of the Smart Pseudoscopic-to-Orthoscopic Conversion 1 Algorithm and the Average Smart Pseudoscopic-to-Orthoscopic Conversion Algorithm, we propose the SPOC1 algorithm, which is the transition of the average SPOC algorithm
Summary
The smart pseudoscopic-to-orthoscopic conversion (SPOC) algorithm can synthesize a new elemental image array (EIA) using the already captured EIA, but the algorithm only relies on one simulated ray to establish the mapping relationship between the display pixels and the synthetic pixels. This paper improves the SPOC algorithm and proposes the average SPOC algorithm, which fully considers the converging effect of the synthetic lens on the ray. In the average SPOC algorithm, the simulated rays start from the synthetic pixel, pass through the upper and lower edges of the corresponding synthetic lens, and intersect the display lenses, respectively. Theoretical analysis points out that the average SPOC algorithm can effectively alleviate the matching error between the display pixels and the synthetic pixels, thereby improving the accuracy of the synthetic elemental image array (SEIA) and the reconstruction effect.
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