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Novel dual convolution adaptive focus neural network for book genre classification

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Publicat a:PLoS One vol. 20, no. 11 (Nov 2025), p. e0331011
Autor principal: Zeng, Qingtao
Altres autors: Zhang, Lixin, Zhao, Jiefeng, Xu, Anping, Qi, Yali, Yu, Liqin, Li, Wenjing, Xia, Haochang
Publicat:
Public Library of Science
Matèries:
Visual tasks
Accuracy
Deep learning
Algorithms
Sampling methods
Books
Convolution
Neural networks
Attention
Computer vision
Classification
Sampling
Machine learning
Efficiency
Performance enhancement
Novels
Effectiveness
Image classification
Design
Information processing
Object recognition
Economic
Environmental
Accés en línia:Citation/Abstract
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Resum:Book covers typically contain a wealth of information. With the annual increase in the number of books published, deep learning has been utilised to achieve automatic identification and classification of book covers. This approach overcomes the inefficiency of traditional manual classification operations and enhances the management efficiency of modern book retrieval systems. In the realm of computer vision, the YOLO algorithm has garnered significant attention owing to its excellent performance across various visual tasks. Therefore, this study introduces the CPPDE-YOLO model, a novel dual-convolution adaptive focus neural network that integrates the PConv and PWConv operators, alongside dynamic sampling technology and efficient multi-scale attention. By incorporating specific enhancement features, the original YOLOv8 framework has been optimised to yield superior performance in book cover classification. The aim of this model is to significantly enhance the accuracy of image classification by refining the algorithm. For effective book cover classification, it is imperative to consider complex global feature information to capture intricate features while managing computational costs. To address this, we propose a hybrid model that integrates parallel convolution and point-by-point convolution within the backbone network, integrating it into the DualConv framework to capture complex feature information. Moreover, we integrate the efficient multi-scale attention mechanism into each cross stage partial network fusion residual block in the head section to focus on learning key features for more precise classification. The dynamic sampling method is employed instead of the traditional UPsample method to overcome its inherent limitations. Finally, experimental results on real datasets validate the performance enhancement of our proposed CPPDE-YOLO network structure compared to the original YOLOv8 classification structure, achieving Top_1 Accuracy and Top_5 Accuracy improvement of 1.1% and 1.0%, respectively. This underscores the effectiveness of our proposed algorithm in enhancing book genre classification.
ISSN:1932-6203
DOI:10.1371/journal.pone.0331011
Font:Health & Medical Collection