Litcius/Paper detail

BANDT: A Border-Aware Network With Deformable Transformers for Visual Tracking

Kai Yang, Haijun Zhang, Jianyang Shi, Jianghong Ma

2023IEEE Transactions on Consumer Electronics35 citationsDOI

Abstract

Siamese trackers that predict a tracking box over a regular grid of feature maps based on the sliding-window paradigm have recently drawn widespread attention in the tracking community. However, the sliding-window paradigm lacks the exploration to characterize the explicit border features of the tracking object for accurate box prediction. Furthermore, Siamese trackers do not use an online learning process to improve the model’s discriminative power and a deformable transformer to explore the rich temporal context from the successive frames. To overcome these issues, we propose a border-aware network with deformable transformers (BANDT), which contains classification and regression branches for tracking. The proposed BANDT tracker introduces a border-alignment operation to capture the “border features” from the extreme points of the object’s border to improve the point features of the sliding-window paradigm. The BANDT tracker implements a deformable transformer consisting of an encoder and a decoder to enhance the target representations within a discriminative online learning framework. Specifically, the introduced encoder of the deformable transformer enhances the target representations, while the decoder highlights the potential tracking location. The proposed tracker achieves state-of-the-art performance on seven public datasets. In particular, it achieves 69.6% overlap success and 90.0% precision scores on the UAV123 dataset.

Topics & Concepts

Computer scienceTransformerComputer visionArtificial intelligenceEngineeringElectrical engineeringVoltageVideo Surveillance and Tracking MethodsVisual Attention and Saliency DetectionHuman Pose and Action Recognition