Abstract
Feature extraction on point clouds is an essential task when analyzing and processing point clouds of 3D scenes. However, there still remains a challenge to adequately exploit local fine-grained features on point cloud data due to its irregular and unordered structure in a 3D space. To alleviate this problem, a Dilated Graph Attention-based Network (DGANet) with a certain feature for learning ability is proposed. Specifically, we first build a local dilated graph-like region for each input point to establish the long-range spatial correlation towards its corresponding neighbors, which allows the proposed network to access a wider range of geometric information of local points with their long-range dependencies. Moreover, by integrating the dilated graph attention module (DGAM) implemented by a novel offset–attention mechanism, the proposed network promises to highlight the differing importance on each edge of the constructed local graph to uniquely learn the discrepancy feature of geometric attributes between the connected point pairs. Finally, all the learned edge attention features are further aggregated, allowing the most significant geometric feature representation of local regions by the graph–attention pooling to fully extract local detailed features for each point. The validation experiments using two challenging benchmark datasets demonstrate the effectiveness and powerful generation ability of our proposed DGANet in both 3D object classification and segmentation tasks.
Highlights
Published: 2 September 2021Accurate and real-time geographic information plays a critical role in the research of remote sensing
We proposed a novel point network (DGANet) for local feature extraction on 3D point clouds
The proposed Dilated Graph Attention-based Network (DGANet) is built on the stacked dilated graph attention modules (DGAM) which enable the network to efficiently learn the local neighboring representation by utilizing the long-range dependencies provided by the constructed local dilated graph-like region for each input point
Summary
Published: 2 September 2021Accurate and real-time geographic information plays a critical role in the research of remote sensing. It is noteworthy that 3D point cloud data provides a simple and intuitive geometric representation of 3D objects, which has become one of the most common data sources in the field of remote sensing and has been increasingly applied in a wide variety of real-world applications [2], such as 3D city modeling [3], forestry monitoring [4], and land cover and land use mapping [5]. Many researchers are granting more attention to 3D point cloud analysis and processing; the local feature extraction on 3D point clouds has become the key and difficult point in this field Since it is expensive and Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
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