基于对抗性模仿学习的网络，用于类别级 6D 物体姿态估计

IF 2.4 4区计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Machine Vision and Applications Pub Date : 2024-08-12 DOI:10.1007/s00138-024-01592-6

Shantong Sun, Xu Bao, Aryan Kaushik

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引用次数: 0

摘要

类别级 6D 物体姿态估计是计算机视觉领域一项非常基础和关键的研究。为了摆脱对物体三维模型的依赖，通过合成分析进行物体姿态估计的方法近年来被广泛研究。虽然这些方法在泛化方面有一定的改进，但类别级物体姿态估计的精度仍有待提高。本文提出了一种基于对抗模仿学习的类别级 6D 物体姿态估计网络，命名为 AIL-Net。AIL-Net 采用状态-动作分布匹配准则，能够执行数据集中未出现过的专家动作。这可以防止物体姿态估计陷入不良状态。我们进一步设计了一个通过生成式对抗模仿学习来估计物体姿态的框架。这种方法能够区分 AIL-Net 中的专家策略和模仿策略。实验结果表明，我们的方法在 REAL275 数据集和 Cars 数据集上实现了具有竞争力的类别级物体姿态估计性能。

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Adversarial imitation learning-based network for category-level 6D object pose estimation

Category-level 6D object pose estimation is a very fundamental and key research in computer vision. In order to get rid of the dependence on the object 3D models, analysis-by-synthesis object pose estimation methods have recently been widely studied. While these methods have certain improvements in generalization, the accuracy of category-level object pose estimation still needs to be improved. In this paper, we propose a category-level 6D object pose estimation network based on adversarial imitation learning, named AIL-Net. AIL-Net adopts the state-action distribution matching criterion and is able to perform expert actions that have not appeared in the dataset. This prevents the object pose estimation from falling into a bad state. We further design a framework for estimating object pose through generative adversarial imitation learning. This method is able to distinguish between expert policy and imitation policy in AIL-Net. Experimental results show that our approach achieves competitive category-level object pose estimation performance on REAL275 dataset and Cars dataset.

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来源期刊

Machine Vision and Applications 工程技术-工程：电子与电气

CiteScore

6.30

自引率

3.00%

发文量

审稿时长

8.7 months

期刊介绍： Machine Vision and Applications publishes high-quality technical contributions in machine vision research and development. Specifically, the editors encourage submittals in all applications and engineering aspects of image-related computing. In particular, original contributions dealing with scientific, commercial, industrial, military, and biomedical applications of machine vision, are all within the scope of the journal. Particular emphasis is placed on engineering and technology aspects of image processing and computer vision. The following aspects of machine vision applications are of interest: algorithms, architectures, VLSI implementations, AI techniques and expert systems for machine vision, front-end sensing, multidimensional and multisensor machine vision, real-time techniques, image databases, virtual reality and visualization. Papers must include a significant experimental validation component.

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