Qian Zhang scite author profile

With the rapid growing of remotely sensed imagery data, there is a high demand for effective and efficient image retrieval tools to manage and exploit such data. In this letter, we present a novel content-based remote sensing image retrieval method based on Triplet deep metric learning convolutional neural network (CNN). By constructing a Triplet network with metric learning objective function, we extract the representative features of the images in a semantic space in which images from the same class are close to each other while those from different classes are far apart. In such a semantic space, simple metric measures such as Euclidean distance can be used directly to compare the similarity of images and effectively retrieve images of the same class. We also investigate a supervised and an unsupervised learning methods for reducing the dimensionality of the learned semantic features. We present comprehensive experimental results on two publicly available remote sensing image retrieval datasets and show that our method significantly outperforms state-of-the-art.Index Terms-Deep learning, metric learning, content-based image retrieval (CBIR), remote sensing image retrieval (RSIR).

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Weakly Supervised Human Activity Recognition From Wearable Sensors by Recurrent Attention Learning

Zhang

Wang

et al. 2019

IEEE Sensors J.

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Attention-based recurrent neural networks for accurate short-term and long-term dissolved oxygen prediction

Liu

Zhang

Song

et al. 2019

Computers and Electronics in Agriculture

113

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Qian Zhang

Enhanced Moth-flame optimizer with mutation strategy for global optimization

Deep learning-based remote and social sensing data fusion for urban region function recognition

Enhancing remote sensing image retrieval using a triplet deep metric learning network

Weakly Supervised Human Activity Recognition From Wearable Sensors by Recurrent Attention Learning

Attention-based recurrent neural networks for accurate short-term and long-term dissolved oxygen prediction

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