Deep learning based 3D segmentation in computer vision: A survey

IF 14.7 1区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Information Fusion Pub Date : 2024-10-28 DOI:10.1016/j.inffus.2024.102722

Yong He , Hongshan Yu , Xiaoyan Liu , Zhengeng Yang , Wei Sun , Saeed Anwar , Ajmal Mian

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Abstract

3D segmentation is a fundamental and challenging problem in computer vision with applications in autonomous driving and robotics. It has received significant attention from the computer vision, graphics and machine learning communities. Conventional methods for 3D segmentation, based on hand-crafted features and machine learning classifiers, lack generalization ability. Driven by their success in 2D computer vision, deep learning techniques have recently become the tool of choice for 3D segmentation tasks. This has led to an influx of many methods in the literature that have been evaluated on different benchmark datasets. Whereas survey papers on RGB-D and point cloud segmentation exist, there is a lack of a recent in-depth survey that covers all 3D data modalities and application domains. This paper fills the gap and comprehensively surveys the recent progress in deep learning-based 3D segmentation techniques. We cover over 230 works from the last six years, analyze their strengths and limitations, and discuss their competitive results on benchmark datasets. The survey provides a summary of the most commonly used pipelines and finally highlights promising research directions for the future.

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计算机视觉中基于深度学习的 3D 分割：调查

三维分割是计算机视觉领域的一个基本而又具有挑战性的问题，可应用于自动驾驶和机器人领域。它受到了计算机视觉、图形学和机器学习界的极大关注。传统的三维分割方法基于手工创建的特征和机器学习分类器，缺乏泛化能力。在二维计算机视觉领域取得成功的推动下，深度学习技术最近已成为三维分割任务的首选工具。这导致文献中涌现出许多在不同基准数据集上进行评估的方法。虽然存在关于 RGB-D 和点云分割的调查论文，但近期缺乏涵盖所有三维数据模式和应用领域的深入调查。本文填补了这一空白，全面调查了基于深度学习的三维分割技术的最新进展。我们涵盖了过去六年中的 230 多项研究成果，分析了它们的优势和局限性，并讨论了它们在基准数据集上的竞争结果。调查报告对最常用的管道进行了总结，最后强调了未来有前景的研究方向。

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来源期刊

Information Fusion 工程技术-计算机：理论方法

CiteScore

33.20

自引率

4.30%

发文量

161

审稿时长

7.9 months

期刊介绍： Information Fusion serves as a central platform for showcasing advancements in multi-sensor, multi-source, multi-process information fusion, fostering collaboration among diverse disciplines driving its progress. It is the leading outlet for sharing research and development in this field, focusing on architectures, algorithms, and applications. Papers dealing with fundamental theoretical analyses as well as those demonstrating their application to real-world problems will be welcome.