基于独立卷积神经网络的联合目标跟踪与分割

Hakjin Lee, Jongbin Ryu, Jongwoo Lim
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引用次数: 3

摘要

目标跟踪与分割是计算机视觉领域的重要研究课题。它们根据物体的外观和形状特征提供物体的轨迹和边界。大多数跟踪和分割的研究都集中在对目标特征的编码方法上。然而,跟踪轨迹和分割掩码是分开获取的,尽管这两种方法都需要相似的视觉信息。因此,在本文中,我们提出了一种基于cnn的联合目标跟踪和分割框架,该框架在提供分割掩码的同时提高了目标攻击器的性能。在我们的模型中,跟踪模型在每一帧中将目标物体的轨迹确定为一个边界框。给定每帧的边界框,分割模型预测边界框中目标物体的密集掩码。然后,使用分割掩码对跟踪模型的边界框进行细化。我们通过AUC分数和平均IoU来评估我们的算法在DAVIS基准数据集上的性能。结果表明,本文提出的框架提高了原有跟踪器的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Joint Object Tracking and Segmentation with Independent Convolutional Neural Networks
Object tracking and segmentation are important research topics in computer vision. They provide the trajectory and boundary of an object based on their appearance and shape features. Most studies on tracking and segmentation focus on encoding methods for the feature of an object. However, the tracking trajectory and segmentation mask are acquired separately, although similar visual information is required for both methods. Therefore, in this paper, we propose a CNN-based joint object tracking and segmentation framework that provides a segmentation mask while improving the performance of object tacker. In our model, the tracking model determines the trajectory of the target object as a bounding box in each frame. Given the bounding box at each frame, the segmentation model predicts a dense mask of the target object in the bounding box. Then, the segmentation mask is used to refine the bounding box for the tracking model. We evaluate the performance of our algorithm on DAVIS benchmark dataset by AUC score and mean IoU. We showed that the performance of original tracker was improved by our proposed framework.
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