Hwanjo Yu scite author profile

Nodes in a multiplex network are connected by multiple types of relations. However, most existing network embedding methods assume that only a single type of relation exists between nodes. Even for those that consider the multiplexity of a network, they overlook node attributes, resort to node labels for training, and fail to model the global properties of a graph. We present a simple yet effective unsupervised network embedding method for attributed multiplex network called DMGI, inspired by Deep Graph Infomax (DGI) that maximizes the mutual information between local patches of a graph, and the global representation of the entire graph. We devise a systematic way to jointly integrate the node embeddings from multiple graphs by introducing 1) the consensus regularization framework that minimizes the disagreements among the relation-type specific node embeddings, and 2) the universal discriminator that discriminates true samples regardless of the relation types. We also show that the attention mechanism infers the importance of each relation type, and thus can be useful for filtering unnecessary relation types as a preprocessing step. Extensive experiments on various downstream tasks demonstrate that DMGI outperforms the state-of-the-art methods, even though DMGI is fully unsupervised.

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Mining Behavior Graphs for “Backtrace” of Noncrashing Bugs

Liu¹,

Yan²,

Yu³

et al. 2005

109

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Analyzing the executions of a buggy software program is essentially a data mining process. Although many interesting methods have been developed to trace crashing bugs (such as memory violation and core dumps), it is still difficult to analyze noncrashing bugs (such as logical errors). In this paper, we develop a novel method to classify the structured traces of program executions using software behavior graphs. By analyzing the correct and incorrect executions, we have made good progress at the isolation of program regions that may lead to the faulty executions. The classification framework is built on an integration of closed graph mining and SVM classification. More interestingly, suspicious regions are identified through the capture of the classification accuracy change, which is measured incrementally during program execution. Our performance study and case-based experiments show that our approach is both effective and efficient.

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Advertiser-centric approach to understand user click behavior in sponsored search

Kim¹,

Qin²,

Liu³

et al. 2014

Information Sciences

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Adversarial approach to domain adaptation for reinforcement learning on dialog systems

Koo

Lee

2019

Pattern Recognition Letters

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Hwanjo Yu

Unsupervised Attributed Multiplex Network Embedding

Mining Behavior Graphs for “Backtrace” of Noncrashing Bugs

Advertiser-centric approach to understand user click behavior in sponsored search

Adversarial approach to domain adaptation for reinforcement learning on dialog systems

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