Multilabel prediction via cross-view search
Embedding methods have shown promising performance in multilabel prediction, as they are able to discover the label dependence. However, most methods ignore the correlations between the input and output, such that their learned embeddings are not well aligned, which leads to degradation in predictio...
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sg-ntu-dr.10356-1398862020-05-22T06:09:53Z Multilabel prediction via cross-view search Shen, Xiaobo Liu, Weiwei Tsang, Ivor W. Sun, Quan-Sen Ong, Yew-Soon School of Computer Science and Engineering Engineering::Computer science and engineering Classification Cross View Embedding methods have shown promising performance in multilabel prediction, as they are able to discover the label dependence. However, most methods ignore the correlations between the input and output, such that their learned embeddings are not well aligned, which leads to degradation in prediction performance. This paper presents a formulation for multilabel learning, from the perspective of cross-view learning, that explores the correlations between the input and the output. The proposed method, called Co-Embedding (CoE), jointly learns a semantic common subspace and view-specific mappings within one framework. The semantic similarity structure among the embeddings is further preserved, ensuring that close embeddings share similar labels. Additionally, CoE conducts multilabel prediction through the cross-view k nearest neighborhood (k NN) search among the learned embeddings, which significantly reduces computational costs compared with conventional decoding schemes. A hashing-based model, i.e., Co-Hashing (CoH), is further proposed. CoH is based on CoE, and imposes the binary constraint on continuous latent embeddings. CoH aims to generate compact binary representations to improve the prediction efficiency by benefiting from the efficient k NN search of multiple labels in the Hamming space. Extensive experiments on various real-world data sets demonstrate the superiority of the proposed methods over the state of the arts in terms of both prediction accuracy and efficiency. 2020-05-22T06:09:53Z 2020-05-22T06:09:53Z 2017 Journal Article Shen, X., Liu, W., Tsang, I. W., Sun, Q.-S., & Ong, Y.-S. (2018). Multilabel prediction via cross-view search. IEEE Transactions on Neural Networks and Learning Systems, 29(9), 4324-4338. doi:10.1109/TNNLS.2017.2763967 2162-237X https://hdl.handle.net/10356/139886 10.1109/TNNLS.2017.2763967 29990175 2-s2.0-85033712672 9 29 4324 4338 en IEEE Transactions on Neural Networks and Learning Systems © 2017 IEEE. All rights reserved. |
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Engineering::Computer science and engineering Classification Cross View Shen, Xiaobo Liu, Weiwei Tsang, Ivor W. Sun, Quan-Sen Ong, Yew-Soon Multilabel prediction via cross-view search |
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Embedding methods have shown promising performance in multilabel prediction, as they are able to discover the label dependence. However, most methods ignore the correlations between the input and output, such that their learned embeddings are not well aligned, which leads to degradation in prediction performance. This paper presents a formulation for multilabel learning, from the perspective of cross-view learning, that explores the correlations between the input and the output. The proposed method, called Co-Embedding (CoE), jointly learns a semantic common subspace and view-specific mappings within one framework. The semantic similarity structure among the embeddings is further preserved, ensuring that close embeddings share similar labels. Additionally, CoE conducts multilabel prediction through the cross-view k nearest neighborhood (k NN) search among the learned embeddings, which significantly reduces computational costs compared with conventional decoding schemes. A hashing-based model, i.e., Co-Hashing (CoH), is further proposed. CoH is based on CoE, and imposes the binary constraint on continuous latent embeddings. CoH aims to generate compact binary representations to improve the prediction efficiency by benefiting from the efficient k NN search of multiple labels in the Hamming space. Extensive experiments on various real-world data sets demonstrate the superiority of the proposed methods over the state of the arts in terms of both prediction accuracy and efficiency. |
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School of Computer Science and Engineering |
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School of Computer Science and Engineering Shen, Xiaobo Liu, Weiwei Tsang, Ivor W. Sun, Quan-Sen Ong, Yew-Soon |
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Article |
| author |
Shen, Xiaobo Liu, Weiwei Tsang, Ivor W. Sun, Quan-Sen Ong, Yew-Soon |
| author_sort |
Shen, Xiaobo |
| title |
Multilabel prediction via cross-view search |
| title_short |
Multilabel prediction via cross-view search |
| title_full |
Multilabel prediction via cross-view search |
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Multilabel prediction via cross-view search |
| title_full_unstemmed |
Multilabel prediction via cross-view search |
| title_sort |
multilabel prediction via cross-view search |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/139886 |
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1681057570995830784 |