基于关节置信度的抗遮挡目标跟踪

Wei Zhou, Xiaoxue Ding, Haixia Xu
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引用次数: 1

摘要

针对跟踪过程中遮挡问题,提出了一种基于关节置信度的抗遮挡跟踪方法。在核相关滤波器(KCF)跟踪框架下,对特征的维度进行扩展,构建鲁棒目标外观模型,并在跟踪过程中估计目标的大小。我们首先将检测响应图的最大值与平均峰值相关能相结合,通过测量来判断是否发生遮挡,然后设计相应的抗干扰跟踪策略。如果在跟踪过程中没有出现遮挡,则进行KCF跟踪,否则引入重新检测来定位目标位置,并将重新检测对应的区域加入到KCF的调节项中进行上下文学习。将遮挡前的滤波模板与遮挡过程中学习到的上下文模型进行融合,定位目标并更新模型。在OTB2013、OTB100和TC128数据集上的实验评估表明,与KCF、Siamese等算法相比,本文算法在遮挡时具有更强的鲁棒性和更高的跟踪精度。
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Anti-Occlusion Target Tracking Based on Joint Confidence
Aiming to the challenge of occlusion during tracking, this paper proposes an anti-occlusion tracking based on joint confidence. Under the framework of the kernel correlation filter (KCF) tracking, the dimension of the feature is extended to construct a robust target appearance model, and the size of the target is estimated during the tracking process. We first judge whether occlusion occurs or not by the measurement by combining the maximum of the detection response map with the average peak correlation energy, then design the corresponding anti-interference tracking strategy. If the occlusion does not occur during the tracking process, the KCF tracking is performed, otherwise, re-detection is introduced to locate the target position, and the region corresponding to the re-detection is added to the regulation term of the KCF for context learning. The fusion of the filter template before occlusion and the context model learned during occlusion is used to locate the target and to update the model. Experimental evaluations on the datasets OTB2013, OTB100 and TC128 show that compared with the state-of-the-art algorithms such as KCF, Siamese and other algorithms, our proposed algorithm has stronger robustness and higher tracking accuracy when occlusion occurs.
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