Perspective Plane Program Induction From a Single Image

2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) Pub Date : 2020-06-01 DOI:10.1109/cvpr42600.2020.00449

Yikai Li, Jiayuan Mao, Xiuming Zhang, W. Freeman, J. Tenenbaum, Jiajun Wu

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引用次数: 9

Abstract

We study the inverse graphics problem of inferring a holistic representation for natural images. Given an input image, our goal is to induce a neuro-symbolic, program-like representation that jointly models camera poses, object locations, and global scene structures. Such high-level, holistic scene representations further facilitate low-level image manipulation tasks such as inpainting. We formulate this problem as jointly finding the camera pose and scene structure that best describe the input image. The benefits of such joint inference are two-fold: scene regularity serves as a new cue for perspective correction, and in turn, correct perspective correction leads to a simplified scene structure, similar to how the correct shape leads to the most regular texture in shape from texture. Our proposed framework, Perspective Plane Program Induction (P3I), combines search-based and gradient-based algorithms to efficiently solve the problem. P3I outperforms a set of baselines on a collection of Internet images, across tasks including camera pose estimation, global structure inference, and down-stream image manipulation tasks.

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透视平面程序感应从一个单一的图像

我们研究了推断自然图像整体表示的逆图形问题。给定输入图像，我们的目标是诱导神经符号，类似程序的表示，共同建模相机姿势，物体位置和全局场景结构。这种高级的、整体的场景表示进一步促进了低级的图像处理任务，如涂漆。我们将这个问题表述为共同寻找最能描述输入图像的相机姿势和场景结构。这种联合推理的好处是双重的:场景的规律性作为视角校正的新线索，反过来，正确的视角校正导致简化的场景结构，类似于正确的形状导致最规则的纹理从纹理形状。我们提出的透视平面程序归纳(P3I)框架结合了基于搜索和基于梯度的算法来有效地解决问题。P3I在互联网图像集合上优于一组基线，包括相机姿态估计、全局结构推断和下游图像处理任务。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)

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