Liu, Y., Mahmood, A., & Khan, M. H. (2024). Depth Attention for Robust RGB Tracking. In Asian Conference on Computer Vision (ACCV) 2024.
This paper introduces a novel framework for enhancing the robustness of RGB visual object tracking by incorporating depth information obtained through monocular depth estimation. The research aims to address the limitations of traditional RGB-only tracking in handling challenging scenarios like occlusions, motion blur, and fast motion.
The proposed framework utilizes a lightweight monocular depth estimation model (Lite-Mono) to generate an initial depth map from a single RGB image. To refine this depth information and make it suitable for integration with existing RGB tracking algorithms, the researchers introduce a novel "ZK kernel" and a signal modulation technique. This process creates a probability map highlighting the region of interest within the bounding box, effectively disentangling the target object from the background. The depth attention module is then seamlessly integrated into existing RGB tracking algorithms without requiring retraining.
The research demonstrates that incorporating depth information through the proposed depth attention mechanism significantly enhances the robustness of RGB-based visual object tracking. This approach effectively addresses the limitations of traditional RGB-only tracking, particularly in handling challenging scenarios like occlusions and motion blur, without requiring expensive RGB-D cameras or retraining the tracking models.
This research contributes significantly to the field of visual object tracking by introducing a novel and effective method for incorporating depth information into RGB tracking algorithms. The proposed depth attention mechanism offers a practical and efficient solution for improving tracking robustness in real-world applications where depth information might be beneficial but not directly available through specialized sensors.
While the proposed method demonstrates significant improvements, the authors acknowledge that further performance enhancements could be achieved through end-to-end training of the depth estimation and tracking modules. Future research could explore this direction to optimize the integration and potentially achieve even better tracking accuracy and robustness.
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by Yu Liu, Arif... pada arxiv.org 10-29-2024
https://arxiv.org/pdf/2410.20395.pdfPertanyaan yang Lebih Dalam