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Massive recent investigations from both industry and academia have been poured into autostereoscopic display. One of the emerging techniques, light field image (LFI), can provide more immersive perception by increasing the number of views and the spatial resolution. However, these advantages restrict the storage and transmission due to such dense-view image simultaneously. To solve this problem, we propose to compress the LFI using multiview video plus depth (MVD) coding architecture. In this paper, we preliminarily estimate the depth based on the concept of epipolar plane image. To achieve a depth value, we design an optimal slope decision algorithm to determine the best slope with the minimal cost. While this rough estimation produces some error points within initial depth map, therefore, we present a depth optimization algorithm using the characteristic of the associated texture image. Ultimately, a small number of selected viewpoint images are encoded with their corresponding depth maps using the MVD framework, and then, the unselected viewpoint images are synthesized by depth image-based rendering technique. To verify the validity of the proposed LFI compression scheme, extensive experiments are conducted. The simulated results demonstrate that the proposed depth map estimation algorithm is superior to other state-ofthe-art methods for the LFI. Meanwhile, our LFI compression method outperforms other LFI compression algorithms significantly.

Efficient Light Field Images Compression Method Based on Depth Estimation and Optimization