Image retrieval technology has become increasingly important in modern society. Particularly, instance-level image retrieval not only enables fast and accurate image retrieval but also plays a significant role in the field of Visual place recognition (VPR). NetVLAD's (Vector of locally aggregated descriptors) global feature extraction method exhibits excellent performance in the field of image retrieval. Nevertheless, the NetVLAD method is characterized by a long training time, a low recall rate, and a slow method for extracting features. To address this problem, we propose an end-to-end model based on a novel deep neural network for global feature extraction. It exhibits lower computation complexity for high-dimensional features, accelerates feature extraction, and improves the recall rate of image retrieval. We present the following two principal contributions. First, we introduce attention aggregation module based on self-attention mechanism that combines the positional information and confidence scores of local features. And then it enhances local features using the self-attention mechanism. Second, we present the global feature extraction module, At-tnVLAD, based on the principles of the NetVLAD method. It employs a cross-attention mechanism in place of convolution, reducing the number of trainable parameters without affecting the computational complexity. The experimental results indicate that the proposed method can not only speed up training convergence and feature extraction but also improve recall rate.
Attention-based Global Feature Extraction Method For Image Retrieval
2024-06-24
679325 byte
Conference paper
Electronic Resource
English
Robust Feature Extraction Technique for Texture Image Retrieval
British Library Conference Proceedings | 2005
|Endoscope Image Retrieval Based on Color Feature Fusion
IEEE | 2008
|