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Additive Regularization for Hierarchical Multimodal Topic Modeling
Probabilistic topic models uncover the latent semantics of text collections and represent each document by a multinomial distribution over topics. Hierarchical models divide topics into subtopics recursively, thus simplifying information retrieval, browsing and understanding of large multidisciplinary collections. The most of existing approaches to hierarchy learning rely on Bayesian inference. This makes difficult the incorporation of topical hierarchies into other types of topic models. The authors use non-Bayesian multicriteria approach called Additive Regularization of Topic Models (ARTM), which enables to combine any topic models formalized via log-likelihood maximization with additive regularization criteria. In this work, such formalization is proposed for topical hierarchies. Hence, the hierarchical ARTM (hARTM) can be easily adapted to a wide class of text mining problems, e. g., for learning topical hierarchies from multimodal and multilingual heterogeneous data of scientific digital libraries or social media. The authors focus on topical hierarchies that allow a topic to have several parent topics which is important for multidisciplinary collections of scientific papers. The regularization approach allows one to control the sparsity of the parent–child relation and automatically determine the number of subtopics for each topic. Before learning the hierarchy, it is necessary to fix the number of topics for each layer. The additive regularization does not complicate the learning algorithm; so, this approach is well scalable on large text collections.