HINet: Hierarchical Point Cloud Frame Interpolation Network

2021 11th International Conference on Intelligent Control and Information Processing (ICICIP) Pub Date : 2021-12-03 DOI:10.1109/ICICIP53388.2021.9642217

Jiawen Xu, Zhiyuan You, Xinyi Le, Cailian Chen, X. Guan

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Abstract

Intelligent agents utilize various sensors such as LiDAR, cameras to perceive the surroundings. However, the frame rate difference among sensors seriously affects both safety and efficiency of intelligent agents. Recently some research concerning point cloud frame interpolation is conducted to solve the frame rate inconsistency problem by interpolating low frame rate point cloud sequences up to high frame rate ones. To improve the performance of current state-of-the-art method, we come up with a novel Hierarchical Point Cloud Frame Interpolation Network (HINet). By proposed hierarchical warping module, coarse intermediate frames are generated hierarchically to reach closer toward the target position. Besides, we propose spatial aware fusion strategy to hierarchically restore local geometric distribution by attention mechanism and positional offset. Finally, hierarchical supervision module is applied to efficiently train the HINet in two stages, guaranteeing the quality of predicted intermediate frames. We employ HINet in a large outdoor autonomous driving dataset and provide convincing qualitative and quantitative evaluation results.

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HINet:分层点云帧插值网络

智能代理利用各种传感器，如激光雷达、摄像头来感知周围环境。然而，传感器之间的帧率差异严重影响了智能体的安全性和效率。为了解决低帧率点云序列与高帧率点云序列之间的帧率不一致问题，近年来进行了点云帧插值研究。为了提高当前最先进的方法的性能，我们提出了一种新的分层点云帧插值网络(HINet)。通过提出的分层扭曲模块，分层生成粗中间帧，使其更接近目标位置。此外，我们还提出了空间意识融合策略，通过注意机制和位置偏移来分层恢复局部几何分布。最后，采用分层监督模块，分两阶段高效训练HINet，保证预测中间帧的质量。我们将HINet应用于大型户外自动驾驶数据集，并提供了令人信服的定性和定量评估结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2021 11th International Conference on Intelligent Control and Information Processing (ICICIP)

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