Zhengfa Liang scite author profile

Stereo matching algorithms usually consist of four steps, including matching cost calculation, matching cost aggregation, disparity calculation, and disparity refinement. Existing CNN-based methods only adopt CNN to solve parts of the four steps, or use different networks to deal with different steps, making them difficult to obtain the overall optimal solution. In this paper, we propose a network architecture to incorporate all steps of stereo matching. The network consists of three parts. The first part calculates the multi-scale shared features. The second part performs matching cost calculation, matching cost aggregation and disparity calculation to estimate the initial disparity using shared features. The initial disparity and the shared features are used to calculate the feature constancy that measures correctness of the correspondence between two input images. The initial disparity and the feature constancy are then fed to a subnetwork to refine the initial disparity. The proposed method has been evaluated on the Scene Flow and KITTI datasets. It achieves the state-of-the-art performance on the KITTI 2012 and KITTI 2015 benchmarks while maintaining a very fast running time.

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Learning Parallax Attention for Stereo Image Super-Resolution

Wang

Liang³

et al. 2019

257

228

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Stereo image pairs can be used to improve the performance of super-resolution (SR) since additional information is provided from a second viewpoint. However, it is challenging to incorporate this information for SR since disparities between stereo images vary significantly. In this paper, we propose a parallax-attention stereo superresolution network (PASSRnet) to integrate the information from a stereo image pair for SR. Specifically, we introduce a parallax-attention mechanism with a global receptive field along the epipolar line to handle different stereo images with large disparity variations. We also propose a new and the largest dataset for stereo image SR (namely, Flickr1024). Extensive experiments demonstrate that the parallax-attention mechanism can capture correspondence between stereo images to improve SR performance with a small computational and memory cost. Comparative results show that our PASSRnet achieves the state-of-the-art performance on the Middlebury, KITTI 2012 and KITTI 2015 datasets.

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Parallax Attention for Unsupervised Stereo Correspondence Learning

Wang

Guo

Wang

et al. 2022

IEEE Trans. Pattern Anal. Mach. Intell.

114

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Multi-Level Context Ultra-Aggregation for Stereo Matching

et al. 2019

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Stereo Matching Using Multi-Level Cost Volume and Multi-Scale Feature Constancy

Liang¹,

Guo

Feng

et al. 2021

IEEE Trans. Pattern Anal. Mach. Intell.

101

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Zhengfa Liang

Learning for Disparity Estimation Through Feature Constancy

Learning Parallax Attention for Stereo Image Super-Resolution

Parallax Attention for Unsupervised Stereo Correspondence Learning

Multi-Level Context Ultra-Aggregation for Stereo Matching

Stereo Matching Using Multi-Level Cost Volume and Multi-Scale Feature Constancy

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