增强实时立体声使用双边滤波

Proceedings. 2nd International Symposium on 3D Data Processing, Visualization and Transmission, 2004. 3DPVT 2004. Pub Date : 2004-09-06 DOI:10.1109/TDPVT.2004.1335273

A. Ansar, A. Castano, L. Matthies

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引用次数: 64

摘要

近年来，在使用能量最小化等全球技术提高立体声范围质量方面取得了重大进展。这些方法还不能实现实时性能。然而，提高实时应用的范围质量的需求仍然存在。所有实时立体实现都依赖于一个简单的关联步骤，该步骤在左右图像之间使用一些局部相似度度量。通常，相关性发生在以某种方式修改的图像对上，以补偿左右相机之间的光度变化。对这些算法的改进和修改往往属于两大类之一:那些解决相关步骤本身的(例如，可移动窗口，自适应窗口)和那些解决输入图像预处理的(例如，带通滤波，秩，普查)。我们的努力在于后一个方面。本文提出了一种改进的标准带通滤波技术，这种技术被许多基于固态硬盘和固态硬盘的相关算法所使用。通过使用Tomasi和Manduchi[(1998)]的双边滤波器，我们最大限度地减少了滤波阶段的模糊。我们表明，结合SAD相关性，我们的新方法提高了距离不连续时的立体质量，同时保持了实时性能。

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Enhanced real-time stereo using bilateral filtering

In recent years, there have been significant strides in increasing quality of range from stereo using global techniques such as energy minimization. These methods cannot yet achieve real-time performance. However, the need to improve range quality for real-time applications persists. All real-time stereo implementations rely on a simple correlation step which employs some local similarity metric between the left and right image. Typically, the correlation takes place on an image pair modified in some way to compensate for photometric variations between the left and right cameras. Improvements and modifications to such algorithms tend to fall into one of two broad categories: those which address the correlation step itself (e.g., shiftable windows, adaptive windows) and those which address the preprocessing of input imagery (e.g. band-pass filtering, Rank, Census). Our efforts lie in the latter area. We present in this paper a modification of the standard band-pass filtering technique used by many SSD- and SAD-based correlation algorithms. By using the bilateral filter of Tomasi and Manduchi [(1998)], we minimize blurring at the filtering stage. We show that in conjunction with SAD correlation, our new method improves stereo quality at range discontinuities while maintaining real-time performance.

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Proceedings. 2nd International Symposium on 3D Data Processing, Visualization and Transmission, 2004. 3DPVT 2004.

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