BL-MNE: Emerging Heterogeneous Social Network Embedding Through Broad Learning with Aligned Autoencoder
Network embedding aims at projecting the network data into a low-dimensional feature space, where the nodes are represented as a unique feature vector and network structure can be effectively preserved. In recent years, more and more online application service sites can be represented as massive and...
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| Published in | Proceedings (IEEE International Conference on Data Mining) pp. 605 - 614 |
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| Main Authors | , , , , , |
| Format | Conference Proceeding |
| Language | English |
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IEEE
01.11.2017
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| Abstract | Network embedding aims at projecting the network data into a low-dimensional feature space, where the nodes are represented as a unique feature vector and network structure can be effectively preserved. In recent years, more and more online application service sites can be represented as massive and complex networks, which are extremely challenging for traditional machine learning algorithms to deal with. Effective embedding of the complex network data into low-dimension feature representation can both save data storage space and enable traditional machine learning algorithms applicable to handle the network data. Network embedding performance will degrade greatly if the networks are of a sparse structure, like the emerging networks with few connections. In this paper, we propose to learn the embedding representation for a target emerging network based on the broad learning setting, where the emerging network is aligned with other external mature networks at the same time. To solve the problem, a new embedding framework, namely "Deep alIgned autoencoder based eMbEdding" (DIME), is introduced in this paper. DIME handles the diverse link and attribute in a unified analytic based on broad learning, and introduces the multiple aligned attributed heterogeneous social network concept to model the network structure. A set of meta paths are introduced in the paper, which define various kinds of connections among users via the heterogeneous link and attribute information. The closeness among users in the networks are defined as the meta proximity scores, which will be fed into DIME to learn the embedding vectors of users in the emerging network. Extensive experiments have been done on real-world aligned social networks, which have demonstrated the effectiveness of DIME in learning the emerging network embedding vectors. |
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| AbstractList | Network embedding aims at projecting the network data into a low-dimensional feature space, where the nodes are represented as a unique feature vector and network structure can be effectively preserved. In recent years, more and more online application service sites can be represented as massive and complex networks, which are extremely challenging for traditional machine learning algorithms to deal with. Effective embedding of the complex network data into low-dimension feature representation can both save data storage space and enable traditional machine learning algorithms applicable to handle the network data. Network embedding performance will degrade greatly if the networks are of a sparse structure, like the emerging networks with few connections. In this paper, we propose to learn the embedding representation for a target emerging network based on the broad learning setting, where the emerging network is aligned with other external mature networks at the same time. To solve the problem, a new embedding framework, namely "Deep alIgned autoencoder based eMbEdding" (DIME), is introduced in this paper. DIME handles the diverse link and attribute in a unified analytic based on broad learning, and introduces the multiple aligned attributed heterogeneous social network concept to model the network structure. A set of meta paths are introduced in the paper, which define various kinds of connections among users via the heterogeneous link and attribute information. The closeness among users in the networks are defined as the meta proximity scores, which will be fed into DIME to learn the embedding vectors of users in the emerging network. Extensive experiments have been done on real-world aligned social networks, which have demonstrated the effectiveness of DIME in learning the emerging network embedding vectors. |
| Author | Limeng Cui Jiawei Zhang Chenwei Zhang Congying Xia Yu, Philip S. Yanjie Fu |
| Author_xml | – sequence: 1 surname: Jiawei Zhang fullname: Jiawei Zhang email: jzhang@cs.fsu.edu organization: Dept. of Comput. Sci., Florida State Univ., Tallahassee, FL, USA – sequence: 2 surname: Congying Xia fullname: Congying Xia email: cxia8@uic.edu organization: Univ. of Illinois at Chicago, Chicago, IL, USA – sequence: 3 surname: Chenwei Zhang fullname: Chenwei Zhang email: czhang99@uic.edu organization: Univ. of Illinois at Chicago, Chicago, IL, USA – sequence: 4 surname: Limeng Cui fullname: Limeng Cui email: lmcui932@163.com organization: Sch. of Comput. & Control Eng., Univ. of Chinese Acad. of Sci., Beijing, China – sequence: 5 surname: Yanjie Fu fullname: Yanjie Fu email: fuyan@mst.edu organization: Missouri Univ. of Sci. & Technol., Rolla, MO, USA – sequence: 6 givenname: Philip S. surname: Yu fullname: Yu, Philip S. email: psyu@uic.edu organization: Univ. of Illinois at Chicago, Chicago, IL, USA |
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| Snippet | Network embedding aims at projecting the network data into a low-dimensional feature space, where the nodes are represented as a unique feature vector and... |
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| SubjectTerms | Broad Learning Complex networks Heterogeneous Information Network Heterogeneous networks Machine learning algorithms Multiple Aligned Social Networks Network Embedding Terminology |
| Title | BL-MNE: Emerging Heterogeneous Social Network Embedding Through Broad Learning with Aligned Autoencoder |
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