Computational Large Field-of-View RGB-D Integral Imaging System

Abstract: The integral imaging system has received considerable research attention because it can be applied to real-time three-dimensional image displays with a continuous view angle without supplementary devices. Most previous approaches place a physical micro-lens array in front of the image, where each lens looks different depending on the viewing angle. A computational integral imaging system with a virtual micro-lens arrays has been proposed in order to provide flexibility for users to change micro-lens arrays and… Show more

“…Then, they proposed the Monodepth2 [26] model, which solved the depth blurring problem in the object occlusion region to an extent by minimizing the reprojection loss for each pixel. Some specific network structures [27][28][29][30] or improved loss functions [31] have also appeared to optimize models.…”

The Constraints between Edge Depth and Uncertainty for Monocular Depth Estimation

“…Then, they proposed the Monodepth2 [26] model, which solved the depth blurring problem in the object occlusion region to an extent by minimizing the reprojection loss for each pixel. Some specific network structures [27][28][29][30] or improved loss functions [31] have also appeared to optimize models.…”

The Constraints between Edge Depth and Uncertainty for Monocular Depth Estimation

Innovative 3D/2D Augmented Reality System Based on a Liquid-Crystalline Microlens Array and Full-Color Holographic Optical Element