LESS:激光雷达点云的高效标签语义分割

Minghua Liu, Yin Zhou, C. Qi, Boqing Gong, Hao Su, Drago Anguelov
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引用次数: 19

摘要

激光雷达点云的语义分割是自动驾驶中的一项重要任务。然而,通过传统的监督方法训练深度模型需要大量的数据集,而这些数据集的标记成本很高。使用标签高效的分割方法将模型扩展到新的操作领域或在极少数情况下提高性能是至关重要的。虽然大多数先前的工作都集中在室内场景,但我们是第一个为带有LiDAR点云的室外场景提出标签高效语义分割管道的人之一。我们的方法与半/弱监督学习共同设计了一个高效的标记过程,适用于几乎任何3D语义分割主干。具体而言,我们利用户外场景中的几何图案进行启发式预分割,减少人工标注,并与标注过程共同设计学习目标。在学习步骤中,我们利用原型学习来获得更具描述性的点嵌入,并使用多扫描蒸馏从时间聚合的点云中挖掘更丰富的语义,以提高单扫描模型的性能。在SemanticKITTI和nuScenes数据集上进行了评估,结果表明我们提出的方法优于现有的标签高效方法。在人工标注极其有限的情况下(例如,0.1%的点标签),我们提出的方法甚至比具有100%标签的完全监督方法更具竞争力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LESS: Label-Efficient Semantic Segmentation for LiDAR Point Clouds
Semantic segmentation of LiDAR point clouds is an important task in autonomous driving. However, training deep models via conventional supervised methods requires large datasets which are costly to label. It is critical to have label-efficient segmentation approaches to scale up the model to new operational domains or to improve performance on rare cases. While most prior works focus on indoor scenes, we are one of the first to propose a label-efficient semantic segmentation pipeline for outdoor scenes with LiDAR point clouds. Our method co-designs an efficient labeling process with semi/weakly supervised learning and is applicable to nearly any 3D semantic segmentation backbones. Specifically, we leverage geometry patterns in outdoor scenes to have a heuristic pre-segmentation to reduce the manual labeling and jointly design the learning targets with the labeling process. In the learning step, we leverage prototype learning to get more descriptive point embeddings and use multi-scan distillation to exploit richer semantics from temporally aggregated point clouds to boost the performance of single-scan models. Evaluated on the SemanticKITTI and the nuScenes datasets, we show that our proposed method outperforms existing label-efficient methods. With extremely limited human annotations (e.g., 0.1% point labels), our proposed method is even highly competitive compared to the fully supervised counterpart with 100% labels.
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