Multi-view Clustering of Social-based Data

Real-world, social phenomena produce various types of data, like explicit networks or user-emitted text. When different sets of data describe the same entities, the

data is termed multi-view or multi-modal. A distinct advantage of multi-view data is that different views may better capture different aspects of the latent structure of

the data. However, there are difficulties in combining that data to produce something like a clustering of the data. Multi-view clustering techniques, primarily developed

for image or biological use cases or network only use cases, have typically not been used for clustering social-based use cases. I investigate the use of multi-view clustering

on various social-based, multi-view data sets, and propose new techniques for multi-view clustering of social-based data. In the first part of this thesis I discuss the use of multi-view clustering for social-based data, and propose a new paradigm and new techniques for multi-view clustering.

In chapter two I propose a new hybrid paradigm of multi-view clustering, which combines elements of late paradigm and intermediate paradigm integration. I test the various intermediate, late, and hybrid paradigm algorithms on a wide range of benchmark data sets from social-based data scenarios. The results of the empirical testing demonstrate a wide variance in the performance of multi-view clustering

techniques. This is in part because social-based data often have high inter- and intraview variances that are not present in other data scenarios, which presents difficulties

for existing techniques. Only two techniques proposed in the chapter have good performance across all of the data sets and are robust to inter- and intra-view differences.

From the results in chapter two, I devise a new algorithm based in network modularity and graph learning to cluster multi-view social data in chapter three. I present the

results of a series of empirical tests of the new technique, as well as possible variations on the technique. The results demonstrate that the presented technique often performs well across a wide range of social-scenarios that give rise to multi-view data, is scalable to large data sets, and is robust to inter- and intra-view variance. In the second part of this thesis I use the new techniques to do clustering analyses

of real-world data. In chapter four I use multi-view clustering on Twitter data collected during the initial stages of the COVID-19 pandemic. This analysis is the first ever use of multi-view clustering to cluster hashtags from large, social-media data sets. The results display that hashtags form topical clusters and that these topical clusters have changed over the course of the pandemic. In chapter five I use

multi-view clustering to cluster malware samples. The results demonstrate that a multi-view clustering of malware samples provides insight into communities of malware

use, and confirm the techniques developed can be applied to a wide range of social-based data scenarios. In sum, I demonstrate the suitability of, and create techniques for, multi-view clustering of complex, multi-view, social-based data. This thesis advances practical clustering analyses of large-scale, noisy, social-based data and contributes to the

field of multi-view clustering in general.