Pedestrian Re-identification Algorithm Based on Visual Attention-positive Sample Generation Network Deep Learning Model

Abstract

In view of the strong generalizability and self-learning capabilities of deep learning models, many scholars have studies how to apply deep learning theory in the pedestrian re-identification field. However, a number of problems persist in practically applying deep learning in this field, including determining how to make full use of the features of the sequence information in the salient region of an image and addressing the data gap between data-driven deep learning models and pedestrian re-identification tasks. In view of these problems, in this paper, a re-identification method is proposed based on a visual common attention mechanism. Initially, the method focuses on the local area of the image at the location specified by the given coordinates. Next, under the constraint of pedestrian image pairing tags, it focuses on the sequence of salient regions of image pairs based on deep learning techniques. Then, the global features and the local attention features are cascaded into joint features for use in pedestrian re-identification. To address the data gap between deep learning models and pedestrian re-identification, a new strategy for generating difficult positive samples is proposed primarily through a positive sample that mainly involves a positive sample generation network, a difficult positive sample conversion network, and a dual-stream twin network. We using this network, a large number of positive samples can be obtained to train the data-driven neural network and solve the re-identification task. The above ideas are combined to propose a pedestrian re-identification algorithm based on a visual attention-positive sample generation network deep learning model. The experimental results show that the method proposed in this paper not only achieves better recognition results than other deep learning methods, but also adapts well to a variety of databases. In addition, the method proposed in this paper is more robust to occluded pedestrian images than other deep learning methods. In addition, the method proposed in this paper is more robust than other deep learning methods for occluding pedestrian images.