Marc Pollefeys scite author profile

In this work we address the problem of finding reliable pixel-level correspondences under difficult imaging conditions. We propose an approach where a single convolutional neural network plays a dual role: It is simultaneously a dense feature descriptor and a feature detector. By postponing the detection to a later stage, the obtained keypoints are more stable than their traditional counterparts based on early detection of low-level structures. We show that this model can be trained using pixel correspondences extracted from readily available large-scale SfM reconstructions, without any further annotations. The proposed method obtains state-of-the-art performance on both the difficult Aachen Day-Night localization dataset and the InLoc indoor localization benchmark, as well as competitive performance on other benchmarks for image matching and 3D reconstruction. Figure 1: Examples of matches obtained by the D2-Net method. The proposed method can find image correspondences even under significant appearance differences caused by strong changes in illumination such as day-to-night, changes in depiction style or under image degradation caused by motion blur.ciently via (approximate) nearest neighbor search [37] and the Euclidean distance. Sparse features offer a memory efficient representation and thus enable approaches such as Structure-from-Motion (SfM) [21,53] or visual localization [26,47,58] to scale. The keypoint detector typically considers low-level image information such as corners [19] or blob-like structures [30,32]. As such, local features can

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Benchmarking 6DOF Outdoor Visual Localization in Changing Conditions

Sattler

et al. 2018

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Visual localization enables autonomous vehicles to navigate in their surroundings and augmented reality applications to link virtual to real worlds. Practical visual localization approaches need to be robust to a wide variety of viewing condition, including day-night changes, as well as weather and seasonal variations, while providing highly accurate 6 degree-of-freedom (6DOF) camera pose estimates. In this paper, we introduce the first benchmark datasets specifically designed for analyzing the impact of such factors on visual localization. Using carefully created ground truth poses for query images taken under a wide variety of conditions, we evaluate the impact of various factors on 6DOF camera pose estimation accuracy through extensive experiments with state-of-the-art localization approaches. Based on our results, we draw conclusions about the difficulty of different conditions, showing that long-term localization is far from solved, and propose promising avenues for future work, including sequence-based localization approaches and the need for better local features. Our benchmark is available at visuallocalization.net.

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Marc Pollefeys

Pixelwise View Selection for Unstructured Multi-View Stereo

D2-Net: A Trainable CNN for Joint Description and Detection of Local Features

Benchmarking 6DOF Outdoor Visual Localization in Changing Conditions

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