CamNet: Coarse-to-Fine Retrieval for Camera Re-Localization

Mingyu Ding, Zhe Wang, Jiankai Sun, Jianping Shi, P. Luo
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引用次数: 101

Abstract

Camera re-localization is an important but challenging task in applications like robotics and autonomous driving. Recently, retrieval-based methods have been considered as a promising direction as they can be easily generalized to novel scenes. Despite significant progress has been made, we observe that the performance bottleneck of previous methods actually lies in the retrieval module. These methods use the same features for both retrieval and relative pose regression tasks which have potential conflicts in learning. To this end, here we present a coarse-to-fine retrieval-based deep learning framework, which includes three steps, i.e., image-based coarse retrieval, pose-based fine retrieval and precise relative pose regression. With our carefully designed retrieval module, the relative pose regression task can be surprisingly simpler. We design novel retrieval losses with batch hard sampling criterion and two-stage retrieval to locate samples that adapt to the relative pose regression task. Extensive experiments show that our model (CamNet) outperforms the state-of-the-art methods by a large margin on both indoor and outdoor datasets.
CamNet:相机再定位的粗到精检索
在机器人和自动驾驶等应用中,摄像头重新定位是一项重要但具有挑战性的任务。近年来,基于检索的方法被认为是一个有前途的方向,因为它可以很容易地推广到新的场景。尽管已经取得了重大进展,但我们观察到,以前的方法的性能瓶颈实际上在于检索模块。这些方法对检索任务和相对姿态回归任务使用相同的特征,但在学习中存在潜在的冲突。为此,我们提出了一个基于粗到细检索的深度学习框架,该框架包括三个步骤,即基于图像的粗检索、基于姿态的精细检索和精确相对姿态回归。通过我们精心设计的检索模块,相对姿态回归任务可以变得非常简单。我们设计了新的检索损失,采用批硬采样准则和两阶段检索来定位适应相对位姿回归任务的样本。大量的实验表明,我们的模型(CamNet)在室内和室外数据集上的表现都大大优于最先进的方法。
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