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Beyond Photometric Consistency: Geometry-Based Occlusion-Aware Unsupervised Light Field Disparity Estimation

Wenhui Zhou, Lili Lin, Yong-Jie Hong, Qiujian Li, Xingfa Shen, Erçan E. Kuruoğlu

2023IEEE Transactions on Neural Networks and Learning Systems17 citationsDOI

Abstract

Although learning-based light field disparity estimation has achieved great progress in the most recent years, the performance of unsupervised light field learning is still hindered by occlusions and noises. By analyzing the overall strategy underlying the unsupervised methodology and the light field geometry implied in epipolar plane images (EPIs), we look beyond the photometric consistency assumption, and design an occlusion-aware unsupervised framework to deal with the situations of photometric consistency conflict. Specifically, we present a geometry-based light field occlusion modeling, which predicts a group of visibility masks and occlusion maps, respectively, by forward warping and backward EPI-line tracing. In order to learn better the noise- and occlusion-invariant representations of the light field, we propose two occlusion-aware unsupervised losses: occlusion-aware SSIM and statistics-based EPI loss. Experiment results demonstrate that our method can improve the estimation accuracy of light field depth over the occluded and noisy regions, and preserve the occlusion boundaries better.

Topics & Concepts

Light fieldArtificial intelligenceOcclusionEpipolar geometryImage warpingComputer scienceComputer visionConsistency (knowledge bases)Unsupervised learningField (mathematics)VisibilityMathematicsImage (mathematics)OpticsPhysicsMedicineCardiologyPure mathematicsAdvanced Vision and ImagingImage Enhancement TechniquesRemote Sensing and LiDAR Applications
Beyond Photometric Consistency: Geometry-Based Occlusion-Aware Unsupervised Light Field Disparity Estimation | Litcius