OpenCV
4.10.0
Open Source Computer Vision
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Stereo matching algorithms, especially highly-optimized ones that are intended for real-time processing on CPU, tend to make quite a few errors on challenging sequences. These errors are usually concentrated in uniform texture-less areas, half-occlusions and regions near depth discontinuities. One way of dealing with stereo-matching errors is to use various techniques of detecting potentially inaccurate disparity values and invalidate them, therefore making the disparity map semi-sparse. Several such techniques are already implemented in the StereoBM and StereoSGBM algorithms. Another way would be to use some kind of filtering procedure to align the disparity map edges with those of the source image and to propagate the disparity values from high- to low-confidence regions like half-occlusions. Recent advances in edge-aware filtering have enabled performing such post-filtering under the constraints of real-time processing on CPU.
In this tutorial you will learn how to use the disparity map post-filtering to improve the results of StereoBM and StereoSGBM algorithms.
We will be using snippets from the example application, that can be downloaded here.
The provided example has several options that yield different trade-offs between the speed and the quality of the resulting disparity map. Both the speed and the quality are measured if the user has provided the ground-truth disparity map. In this tutorial we will take a detailed look at the default pipeline, that was designed to provide the best possible quality under the constraints of real-time processing on CPU.