Backward ray tracing based rectification for real-time integral imaging display system

Abstract

In an integral imaging (InI) display system, the deviation of the lens position results in blur and distortion of the reconstructed three-dimensional (3D) image. To achieve undistorted and real-time 3D images, an image correction method based on the backward ray tracing (BRT) technology is presented. By finding the correct pixel-to-ray correspondence, the origin and the direction of the light ray for every pixel in elemental image array (EIA) are reset, and the corrected 3D image is obtained based on the BRT technique. Experimental results demonstrate the feasibility and effectiveness of the proposed method, and the structural similarity (SSIM) index of the reconstructed 3D image increased by 20∼30% compared with that without calibrating. The frame rate of EIA generation is over 40 fps, which can realize real-time generation.