Coherent Object Detection with 3D Geometric Context from a Single Image

Jiyan Pan, T. Kanade
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引用次数: 12

Abstract

Objects in a real world image cannot have arbitrary appearance, sizes and locations due to geometric constraints in 3D space. Such a 3D geometric context plays an important role in resolving visual ambiguities and achieving coherent object detection. In this paper, we develop a RANSAC-CRF framework to detect objects that are geometrically coherent in the 3D world. Different from existing methods, we propose a novel generalized RANSAC algorithm to generate global 3D geometry hypotheses from local entities such that outlier suppression and noise reduction is achieved simultaneously. In addition, we evaluate those hypotheses using a CRF which considers both the compatibility of individual objects under global 3D geometric context and the compatibility between adjacent objects under local 3D geometric context. Experiment results show that our approach compares favorably with the state of the art.
基于单幅图像的三维几何背景的相干目标检测
由于三维空间的几何约束,现实世界图像中的物体不能具有任意的外观、大小和位置。这种三维几何环境对于解决视觉歧义和实现目标的相干检测具有重要作用。在本文中,我们开发了一个RANSAC-CRF框架来检测三维世界中几何相干的物体。与现有方法不同,我们提出了一种新的广义RANSAC算法,从局部实体生成全局三维几何假设,从而同时实现离群值抑制和降噪。此外,我们使用CRF来评估这些假设,该CRF考虑了全局三维几何环境下单个物体的兼容性和局部三维几何环境下相邻物体之间的兼容性。实验结果表明,我们的方法优于目前的技术水平。
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