时空立体的时空定向能量

Mikhail Sizintsev, Richard P. Wildes
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引用次数: 5

摘要

本文提出了一种从双目立体图像序列中恢复动态场景三维结构的时间相干估计的新方法。该方法基于匹配左右时间图像流之间的时空方向分布,封装了局部时空结构,用于视差估计。通过以这种统一的方式捕获空间和时间结构,两个信息来源结合起来产生自然时间连贯的差异估计,同时帮助解决单独考虑任何一个来源时可能含糊不清的匹配。此外,通过允许方向测量的子集支持不同的视差估计,实现了从时空立体中恢复多层视差的方法。该方法已在商用gpu上实现了实时性。经验评估表明,与各种替代方法相比,该方法在质量和数量上都产生了更好的视差估计,包括在(半)透明和镜面存在的情况下提供准确的多层估计的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spatiotemporal oriented energies for spacetime stereo
This paper presents a novel approach to recovering temporally coherent estimates of 3D structure of a dynamic scene from a sequence of binocular stereo images. The approach is based on matching spatiotemporal orientation distributions between left and right temporal image streams, which encapsulates both local spatial and temporal structure for disparity estimation. By capturing spatial and temporal structure in this unified fashion, both sources of information combine to yield disparity estimates that are naturally temporal coherent, while helping to resolve matches that might be ambiguous when either source is considered alone. Further, by allowing subsets of the orientation measurements to support different disparity estimates, an approach to recovering multilayer disparity from spacetime stereo is realized. The approach has been implemented with real-time performance on commodity GPUs. Empirical evaluation shows that the approach yields qualitatively and quantitatively superior disparity estimates in comparison to various alternative approaches, including the ability to provide accurate multilayer estimates in the presence of (semi)transparent and specular surfaces.
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