Bayesian Self-Training for Semi-Supervised 3D Segmentation

Ozan Unal, Christos Sakaridis, Luc Van Gool
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Abstract

3D segmentation is a core problem in computer vision and, similarly to many other dense prediction tasks, it requires large amounts of annotated data for adequate training. However, densely labeling 3D point clouds to employ fully-supervised training remains too labor intensive and expensive. Semi-supervised training provides a more practical alternative, where only a small set of labeled data is given, accompanied by a larger unlabeled set. This area thus studies the effective use of unlabeled data to reduce the performance gap that arises due to the lack of annotations. In this work, inspired by Bayesian deep learning, we first propose a Bayesian self-training framework for semi-supervised 3D semantic segmentation. Employing stochastic inference, we generate an initial set of pseudo-labels and then filter these based on estimated point-wise uncertainty. By constructing a heuristic $n$-partite matching algorithm, we extend the method to semi-supervised 3D instance segmentation, and finally, with the same building blocks, to dense 3D visual grounding. We demonstrate state-of-the-art results for our semi-supervised method on SemanticKITTI and ScribbleKITTI for 3D semantic segmentation and on ScanNet and S3DIS for 3D instance segmentation. We further achieve substantial improvements in dense 3D visual grounding over supervised-only baselines on ScanRefer. Our project page is available at ouenal.github.io/bst/.
用于半监督三维分割的贝叶斯自我训练技术
三维分割是计算机视觉领域的一个核心问题,与其他许多密集预测任务类似,它需要大量标注数据来进行适当的训练。半监督训练提供了一种更实用的替代方法,即只给出一小部分标注数据集,同时给出更大的未标注数据集。因此,该领域研究如何有效利用无标注数据,以缩小因缺乏注释而产生的性能差距。在这项工作中,受贝叶斯深度学习的启发,我们首先提出了一个用于半监督三维语义分割的贝叶斯自我训练框架。通过随机推理,我们生成了一组初始伪标签,然后根据估计的点向不确定性对这些伪标签进行过滤。通过构建一个启发式的 $n$ 部分匹配算法,我们将该方法扩展到半监督三维实例分割,最后,使用相同的构建模块,扩展到密集三维视觉地景。我们在 SemanticKITTI 和 ScribbleKITTI(用于三维语义分割)以及 ScanNet 和 S3DIS(用于三维实例分割)上展示了我们的半监督方法的最新成果。我们还进一步在ScanRefer上实现了密集三维视觉接地,比纯监督基线有了大幅提高。我们的项目页面位于 ouenal.github.io/bst/。
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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