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Main Authors: Guo, Tian, Chen, Chen, Yuan, Hui, Mao, Xiaolong, Hamzaoui, Raouf, Hou, Junhui
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.10789
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author Guo, Tian
Chen, Chen
Yuan, Hui
Mao, Xiaolong
Hamzaoui, Raouf
Hou, Junhui
author_facet Guo, Tian
Chen, Chen
Yuan, Hui
Mao, Xiaolong
Hamzaoui, Raouf
Hou, Junhui
contents Point cloud sampling plays a crucial role in reducing computation costs and storage requirements for various vision tasks. Traditional sampling methods, such as farthest point sampling, lack task-specific information and, as a result, cannot guarantee optimal performance in specific applications. Learning-based methods train a network to sample the point cloud for the targeted downstream task. However, they do not guarantee that the sampled points are the most relevant ones. Moreover, they may result in duplicate sampled points, which requires completion of the sampled point cloud through post-processing techniques. To address these limitations, we propose a contribution-based sampling network (CS-Net), where the sampling operation is formulated as a Top-k operation. To ensure that the network can be trained in an end-to-end way using gradient descent algorithms, we use a differentiable approximation to the Top-k operation via entropy regularization of an optimal transport problem. Our network consists of a feature embedding module, a cascade attention module, and a contribution scoring module. The feature embedding module includes a specifically designed spatial pooling layer to reduce parameters while preserving important features. The cascade attention module combines the outputs of three skip connected offset attention layers to emphasize the attractive features and suppress less important ones. The contribution scoring module generates a contribution score for each point and guides the sampling process to prioritize the most important ones. Experiments on the ModelNet40 and PU147 showed that CS-Net achieved state-of-the-art performance in two semantic-based downstream tasks (classification and registration) and two reconstruction-based tasks (compression and surface reconstruction).
format Preprint
id arxiv_https___arxiv_org_abs_2501_10789
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle CS-Net:Contribution-based Sampling Network for Point Cloud Simplification
Guo, Tian
Chen, Chen
Yuan, Hui
Mao, Xiaolong
Hamzaoui, Raouf
Hou, Junhui
Computer Vision and Pattern Recognition
Point cloud sampling plays a crucial role in reducing computation costs and storage requirements for various vision tasks. Traditional sampling methods, such as farthest point sampling, lack task-specific information and, as a result, cannot guarantee optimal performance in specific applications. Learning-based methods train a network to sample the point cloud for the targeted downstream task. However, they do not guarantee that the sampled points are the most relevant ones. Moreover, they may result in duplicate sampled points, which requires completion of the sampled point cloud through post-processing techniques. To address these limitations, we propose a contribution-based sampling network (CS-Net), where the sampling operation is formulated as a Top-k operation. To ensure that the network can be trained in an end-to-end way using gradient descent algorithms, we use a differentiable approximation to the Top-k operation via entropy regularization of an optimal transport problem. Our network consists of a feature embedding module, a cascade attention module, and a contribution scoring module. The feature embedding module includes a specifically designed spatial pooling layer to reduce parameters while preserving important features. The cascade attention module combines the outputs of three skip connected offset attention layers to emphasize the attractive features and suppress less important ones. The contribution scoring module generates a contribution score for each point and guides the sampling process to prioritize the most important ones. Experiments on the ModelNet40 and PU147 showed that CS-Net achieved state-of-the-art performance in two semantic-based downstream tasks (classification and registration) and two reconstruction-based tasks (compression and surface reconstruction).
title CS-Net:Contribution-based Sampling Network for Point Cloud Simplification
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2501.10789