Multi-View Disparity Estimation Using the Gradient Consistency Model

IF 13.7

IEEE transactions on image processing : a publication of the IEEE Signal Processing Society Pub Date : 2025-07-17 DOI:10.1109/TIP.2025.3588322

James Lyndon Gray;Aous Thabit Naman;David S. Taubman

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Abstract

Variational approaches to disparity estimation typically use a linearised brightness constancy constraint, which only applies in smooth regions and over small distances. Accordingly, current variational approaches rely on a schedule to progressively include image data. This paper proposes the use of Gradient Consistency information to assess the validity of the linearisation; this information is used to determine the weights applied to the data term as part of an analytically inspired Gradient Consistency Model. The Gradient Consistency Model penalises the data term for view pairs that have a mismatch between the spatial gradients in the source view and the spatial gradients in the target view. Instead of relying on a tuned or learned schedule, the Gradient Consistency Model is self-scheduling, since the weights evolve as the algorithm progresses. We show that the Gradient Consistency Model outperforms standard coarse-to-fine schemes and the recently proposed progressive inclusion of views approach in both rate of convergence and accuracy.

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基于梯度一致性模型的多视差估计。

视差估计的变分方法通常使用线性化的亮度常数约束，这只适用于光滑区域和小距离。因此，当前的变分方法依赖于一个时间表来逐步包括图像数据。本文提出使用梯度一致性信息来评估线性化的有效性；该信息用于确定应用于数据项的权重，作为分析启发的梯度一致性模型的一部分。对于源视图中的空间梯度与目标视图中的空间梯度不匹配的视图对，梯度一致性模型会对数据项进行惩罚。梯度一致性模型是自调度的，而不是依赖于调优的或学习的调度，因为权重随着算法的进展而变化。我们证明了梯度一致性模型在收敛速度和精度上都优于标准的粗到精方案和最近提出的渐进式视图包含方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE transactions on image processing : a publication of the IEEE Signal Processing Society

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