The feature models used by existing Thermal InfraRed (TIR) tracking methods are usually learned from RGB images due to the lack of a large-scale TIR image training dataset. However, these… Click to show full abstract
The feature models used by existing Thermal InfraRed (TIR) tracking methods are usually learned from RGB images due to the lack of a large-scale TIR image training dataset. However, these feature models are less effective in representing TIR objects and they are difficult to effectively distinguish distractors because they do not contain fine-grained discriminative information. To this end, we propose a dual-level feature model containing the TIR-specific discriminative feature and fine-grained correlation feature for robust TIR object tracking. Specifically, to distinguish inter-class TIR objects, we first design an auxiliary multi-classification network to learn the TIR-specific discriminative feature. Then, to recognize intra-class TIR objects, we propose a fine-grained aware module to learn the fine-grained correlation feature. These two kinds of features complement each other and represent TIR objects in the levels of inter-class and intra-class respectively. These two feature models are constructed using a multi-task matching framework and are jointly optimized on the TIR object tracking task. In addition, we develop a large-scale TIR image dataset to train the network for learning TIR-specific feature patterns. To the best of our knowledge, this is the largest TIR tracking training dataset with the richest object class and scenario. To verify the effectiveness of the proposed dual-level feature model, we propose an offline TIR tracker (MMNet) and an online TIR tracker (ECO-MM) based on the feature model and evaluate them on three TIR tracking benchmarks. Extensive experimental results on these benchmarks demonstrate that the proposed algorithms perform favorably against the state-of-the-art methods.
               
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