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Multi-Modal Multi-Scale Deep Learning for Large-Scale Image Annotation

Computer Vision and Pattern Recognition 2018-10-22 v2

Abstract

Image annotation aims to annotate a given image with a variable number of class labels corresponding to diverse visual concepts. In this paper, we address two main issues in large-scale image annotation: 1) how to learn a rich feature representation suitable for predicting a diverse set of visual concepts ranging from object, scene to abstract concept; 2) how to annotate an image with the optimal number of class labels. To address the first issue, we propose a novel multi-scale deep model for extracting rich and discriminative features capable of representing a wide range of visual concepts. Specifically, a novel two-branch deep neural network architecture is proposed which comprises a very deep main network branch and a companion feature fusion network branch designed for fusing the multi-scale features computed from the main branch. The deep model is also made multi-modal by taking noisy user-provided tags as model input to complement the image input. For tackling the second issue, we introduce a label quantity prediction auxiliary task to the main label prediction task to explicitly estimate the optimal label number for a given image. Extensive experiments are carried out on two large-scale image annotation benchmark datasets and the results show that our method significantly outperforms the state-of-the-art.

Keywords

Cite

@article{arxiv.1709.01220,
  title  = {Multi-Modal Multi-Scale Deep Learning for Large-Scale Image Annotation},
  author = {Yulei Niu and Zhiwu Lu and Ji-Rong Wen and Tao Xiang and Shih-Fu Chang},
  journal= {arXiv preprint arXiv:1709.01220},
  year   = {2018}
}

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