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SiamCAR: Siamese Fully Convolutional Classification and Regression for Visual Tracking

Dongyan Guo, Jun Wang, Ying Cui, Zhenhua Wang, Shengyong Chen

2020922 citationsDOI

Abstract

By decomposing the visual tracking task into two subproblems as classification for pixel category and regression for object bounding box at this pixel, we propose a novel fully convolutional Siamese network to solve visual tracking end-to-end in a per-pixel manner. The proposed framework SiamCAR consists of two simple subnetworks: one Siamese subnetwork for feature extraction and one classification-regression subnetwork for bounding box prediction. Different from state-of-the-art trackers like Siamese-RPN, SiamRPN++ and SPM, which are based on region proposal, the proposed framework is both proposal and anchor free. Consequently, we are able to avoid the tricky hyper-parameter tuning of anchors and reduce human intervention. The proposed framework is simple, neat and effective. Extensive experiments and comparisons with state-of-the-art trackers are conducted on challenging benchmarks including GOT-10K, LaSOT, UAV123 and OTB-50. Without bells and whistles, our SiamCAR achieves the leading performance with a considerable real-time speed. The code is available at https://github.com/ohhhyeahhh/SiamCAR.

Topics & Concepts

Minimum bounding boxComputer scienceSubnetworkArtificial intelligenceBitTorrent trackerPixelFeature extractionCode (set theory)Pattern recognition (psychology)Bounding overwatchConvolutional neural networkRegressionEye trackingImage (mathematics)MathematicsStatisticsProgramming languageSet (abstract data type)Computer securityVideo Surveillance and Tracking MethodsImage Enhancement TechniquesVisual Attention and Saliency Detection
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