Lenticular lenses are fundamental components in light field displays,which are usually optimized based on aberration correction.We propose a forward-model-based non-imaging optimization method for designing lenticular...Lenticular lenses are fundamental components in light field displays,which are usually optimized based on aberration correction.We propose a forward-model-based non-imaging optimization method for designing lenticular lenses,addressing the inherent limitations of the conventional imaging-based optimization method by accounting for the emission characteristics and physical size of the subpixels.We develop a forward modeling framework enabling direct control of viewpoint width and propose a subpixel-level evaluation algorithm for binocular crosstalk.Results demonstrate that our method achieves a 78.75% crosstalk reduction at the maximum viewing angle,establishing an effective technical solution for target viewpoint distributions with the directional backlight unit.展开更多
基金supported by the National Natural Science Foundation of China (No.62475236)。
文摘Lenticular lenses are fundamental components in light field displays,which are usually optimized based on aberration correction.We propose a forward-model-based non-imaging optimization method for designing lenticular lenses,addressing the inherent limitations of the conventional imaging-based optimization method by accounting for the emission characteristics and physical size of the subpixels.We develop a forward modeling framework enabling direct control of viewpoint width and propose a subpixel-level evaluation algorithm for binocular crosstalk.Results demonstrate that our method achieves a 78.75% crosstalk reduction at the maximum viewing angle,establishing an effective technical solution for target viewpoint distributions with the directional backlight unit.
