神经差异细化

Fabio Tosi;Filippo Aleotti;Pierluigi Zama Ramirez;Matteo Poggi;Samuele Salti;Stefano Mattoccia;Luigi Di Stefano
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引用次数: 0

摘要

我们提出的框架结合了传统的手工算法和深度学习的最新进展,可从立体图像中获取高质量、高分辨率的差异图。通过将细化过程作为一种连续的特征采样策略,我们的神经差异细化网络可以在任何输出分辨率下估算出增强的差异图。我们的解决方案可以处理经典立体算法生成的任何差异图,也可以处理现代立体网络甚至不同的深度图像方法(如 COLMAP 结构-运动管道)预测的差异图。尽管如此,当采用前一种配置时,我们的框架在从合成图像到真实图像的零点泛化方面表现最佳。此外,它的连续表述方式可以轻松处理手机中非常普遍的不平衡立体设置。
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Neural Disparity Refinement
We propose a framework that combines traditional, hand-crafted algorithms and recent advances in deep learning to obtain high-quality, high-resolution disparity maps from stereo images. By casting the refinement process as a continuous feature sampling strategy, our neural disparity refinement network can estimate an enhanced disparity map at any output resolution. Our solution can process any disparity map produced by classical stereo algorithms, as well as those predicted by modern stereo networks or even different depth-from-images approaches, such as the COLMAP structure-from-motion pipeline. Nonetheless, when deployed in the former configuration, our framework performs at its best in terms of zero-shot generalization from synthetic to real images. Moreover, its continuous formulation allows for easily handling the unbalanced stereo setup very diffused in mobile phones.
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