Robust Multi-Kernelized Correlators for UAV Tracking with Adaptive Context Analysis and Dynamic Weighted Filters

Abstract

In recent years, the correlation filter (CF)-based method has significantly advanced in the tracking for unmanned aerial vehicles (UAVs). As the core component of most trackers, CF is a discriminative classifier to distinguish the object from the surrounding environment. However, the poor representation of the object and lack of contextual information have restricted the tracker to gain better performance. In this work, a robust framework with multi-kernelized correlators is proposed to improve robustness and accuracy simultaneously. Both convolutional features extracted from the neural network and handcrafted features are employed to enhance expressions for object appearances. Then, the adaptive context analysis strategy helps filters to effectively learn the surrounding information by introducing context patches with the GMSD index. In the training stage, multiple dynamic filters with time-attenuated factors are introduced to avoid tracking failure caused by dramatic appearance changes. The response maps corresponding to different features are finally fused before the novel resolution enhancement operation to increase distinguishing capability. As a result, the optimization problem is reformulated, and a closed-form solution for the proposed framework can be obtained in the kernel space. Extensive experiments on 100 challenging UAV tracking sequences demonstrate the proposed tracker outperforms other 23 state-of-the-art trackers and can effectively handle unexpected appearance variations under the complex and constantly changing working conditions.

Publication
Neural Computing and Applications 32, pp.12591–12607, 2020

MKCT_workflow Main structure of the proposed tracking approach

Reference

If you find this project is useful, you may cite it as:

@article{Fu2020NCAA,
    title={{Robust Multi-Kernelized Correlators for UAV Tracking with Adaptive Context Analysis and Dynamic Weighted Filters}},
    author={Fu, Changhong and He, Yujie and Lin, Fuling and Xiong, Weijiang},
    journal={Neural Computing and Applications},
    pages={1-17},
    year={2020}
}