Haowen Deng scite author profile

We present PPFNet -Point Pair Feature NETwork for deeply learning a globally informed 3D local feature descriptor to find correspondences in unorganized point clouds. PPFNet learns local descriptors on pure geometry and is highly aware of the global context, an important cue in deep learning. Our 3D representation is computed as a collection of point-pair-features combined with the points and normals within a local vicinity. Our permutation invariant network design is inspired by PointNet and sets PPFNet to be ordering-free. As opposed to voxelization, our method is able to consume raw point clouds to exploit the full sparsity. PPFNet uses a novel N-tuple loss and architecture injecting the global information naturally into the local descriptor. It shows that context awareness also boosts the local feature representation. Qualitative and quantitative evaluations of our network suggest increased recall, improved robustness and invariance as well as a vital step in the 3D descriptor extraction performance.

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PPF-FoldNet: Unsupervised Learning of Rotation Invariant 3D Local Descriptors

Deng

2018

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We present PPF-FoldNet for unsupervised learning of 3D local descriptors on pure point cloud geometry. Based on the folding-based auto-encoding of well known point pair features, PPF-FoldNet offers many desirable properties: it necessitates neither supervision, nor a sensitive local reference frame, benefits from point-set sparsity, is end-to-end, fast, and can extract powerful rotation invariant descriptors. Thanks to a novel feature visualization, its evolution can be monitored to provide interpretable insights. Our extensive experiments demonstrate that despite having six degree-of-freedom invariance and lack of training labels, our network achieves state of the art results in standard benchmark datasets and outperforms its competitors when rotations and varying point densities are present. PPF-FoldNet achieves 9% higher recall on standard benchmarks, 23% higher recall when rotations are introduced into the same datasets and finally, a margin of > 35% is attained when point density is significantly decreased.

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3D Point Capsule Networks

et al. 2019

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In this paper, we propose 3D point-capsule networks, an auto-encoder designed to process sparse 3D point clouds while preserving spatial arrangements of the input data. 3D capsule networks arise as a direct consequence of our novel unified 3D auto-encoder formulation. Their dynamic routing scheme [30] and the peculiar 2D latent space deployed by our approach bring in improvements for several common point cloud-related tasks, such as object classification, object reconstruction and part segmentation as substantiated by our extensive evaluations. Moreover, it enables new applications such as part interpolation and replacement.

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3D Local Features for Direct Pairwise Registration

Deng¹,

Birdal

Ilić³

2019

114

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We present a novel, data driven approach for solving the problem of registration of two point cloud scans. Our approach is direct in the sense that a single pair of corresponding local patches already provides the necessary transformation cue for the global registration. To achieve that, we first endow the state of the art PPF-FoldNet [19] auto-encoder (AE) with a pose-variant sibling, where the discrepancy between the two leads to pose-specific descriptors. Based upon this, we introduce RelativeNet, a relative pose estimation network to assign correspondence-specific orientations to the keypoints, eliminating any local reference frame computations. Finally, we devise a simple yet effective hypothesize-and-verify algorithm to quickly use the predictions and align two point sets. Our extensive quantitative and qualitative experiments suggests that our approach outperforms the state of the art in challenging real datasets of pairwise registration and that augmenting the keypoints with local pose information leads to better generalization and a dramatic speed-up.

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Deep Bingham Networks: Dealing with Uncertainty and Ambiguity in Pose Estimation

Deng¹,

Bui²,

Navab³

et al. 2020

Preprint

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In this work, we introduce Deep Bingham Networks (DBN), a generic framework that can naturally handle pose-related uncertainties and ambiguities arising in almost all real life applications concerning 3D data. While existing works strive to find a single solution to the pose estimation problem, we make peace with the ambiguities causing high uncertainty around which solutions to identify as the best. Instead, we report a family of poses which capture the nature of the solution space. DBN extends the state of the art direct pose regression networks by (i) a multi-hypotheses prediction head which can yield different distribution modes; and (ii) novel loss functions that benefit from Bingham distributions on rotations. This way, DBN can work both in unambiguous cases providing uncertainty information, and in ambiguous scenes where an uncertainty per mode is desired. On a technical front, our network regresses continuous Bingham mixture models and is applicable to both 2D data such as images and to 3D data such as point clouds. We proposed new training strategies so as to avoid mode or posterior collapse during training and to improve numerical

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PPF-FoldNet: Unsupervised Learning of Rotation Invariant 3D Local Descriptors

Deng¹,

Birdal²,

Ilić³

2018

Preprint

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Deep Bingham Networks: Dealing with Uncertainty and Ambiguity in Pose Estimation

et al. 2022

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6D Camera Relocalization in Ambiguous Scenes via Continuous Multimodal Inference

Bui

Birdal

Deng

et al. 2020

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12 3

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Haowen Deng

PPFNet: Global Context Aware Local Features for Robust 3D Point Matching

PPF-FoldNet: Unsupervised Learning of Rotation Invariant 3D Local Descriptors

3D Point Capsule Networks

3D Local Features for Direct Pairwise Registration

Deep Bingham Networks: Dealing with Uncertainty and Ambiguity in Pose Estimation

PPF-FoldNet: Unsupervised Learning of Rotation Invariant 3D Local Descriptors

Deep Bingham Networks: Dealing with Uncertainty and Ambiguity in Pose Estimation

6D Camera Relocalization in Ambiguous Scenes via Continuous Multimodal Inference

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