Adaptive Channel Selection for Robust Visual Object Tracking with Discriminative Correlation Filters

Discriminative Correlation Filters (DCF) have been shown to achieve impressive performance in visual object tracking. However, existing DCF-based trackers rely heavily on learning regularised appearance models from invariant image feature representations. To further improve the performance of DCF in...

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Bibliographic Details
Published in:International journal of computer vision 2021-05, Vol.129 (5), p.1359-1375
Main Authors: Xu, Tianyang, Feng, Zhenhua, Wu, Xiao-Jun, Kittler, Josef
Format: Article
Language:English
Subjects:
Adaptive filters
Artificial Intelligence
Computer Imaging
Computer Science
Image Processing and Computer Vision
Model accuracy
Optical tracking
Pattern Recognition
Pattern Recognition and Graphics
Performance enhancement
Regularization
Robustness (mathematics)
Smoothness
Special Issue on Computer Vision in the Wild
Stability
Vision
Visual discrimination
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Summary:Discriminative Correlation Filters (DCF) have been shown to achieve impressive performance in visual object tracking. However, existing DCF-based trackers rely heavily on learning regularised appearance models from invariant image feature representations. To further improve the performance of DCF in accuracy and provide a parsimonious model from the attribute perspective, we propose to gauge the relevance of multi-channel features for the purpose of channel selection. This is achieved by assessing the information conveyed by the features of each channel as a group, using an adaptive group elastic net inducing independent sparsity and temporal smoothness on the DCF solution. The robustness and stability of the learned appearance model are significantly enhanced by the proposed method as the process of channel selection performs implicit spatial regularisation. We use the augmented Lagrangian method to optimise the discriminative filters efficiently. The experimental results obtained on a number of well-known benchmarking datasets demonstrate the effectiveness and stability of the proposed method. A superior performance over the state-of-the-art trackers is achieved using less than 10 % deep feature channels.
ISSN:0920-5691
1573-1405
DOI:10.1007/s11263-021-01435-1