Spread of hate speech in online social media (1812.01693v1)

Abstract: The present online social media platform is afflicted with several issues, with hate speech being on the predominant forefront. The prevalence of online hate speech has fueled horrific real-world hate-crime such as the mass-genocide of Rohingya Muslims, communal violence in Colombo and the recent massacre in the Pittsburgh synagogue. Consequently, It is imperative to understand the diffusion of such hateful content in an online setting. We conduct the first study that analyses the flow and dynamics of posts generated by hateful and non-hateful users on Gab (gab.com) over a massive dataset of 341K users and 21M posts. Our observations confirms that hateful content diffuse farther, wider and faster and have a greater outreach than those of non-hateful users. A deeper inspection into the profiles and network of hateful and non-hateful users reveals that the former are more influential, popular and cohesive. Thus, our research explores the interesting facets of diffusion dynamics of hateful users and broadens our understanding of hate speech in the online world.

• The paper demonstrates that posts from hateful users propagate faster and reach a broader audience than non-hateful users, despite comprising only 0.3% of the network.
• The paper employs a lexicon-based filtering and snowball methodology to collect 21 million posts, enabling detailed analysis of diffusion patterns via the LRIF model.
• The paper reveals that hateful users form denser, tightly interconnected networks, highlighting the unique cascading behavior of hate speech in unregulated environments.

Analyzing the Dynamics of Hate Speech Diffusion on Online Social Platforms

This paper presents a comprehensive investigation into the dynamics and characteristics of hate speech diffusion within online social media, with a focus on the platform Gab. Unlike platforms such as Twitter and Facebook, Gab allows the unrestricted dissemination of content, providing a unique research opportunity to analyze the spread of hate speech under minimal moderation. The researchers collected an extensive dataset consisting of 21 million posts from 341,000 users over a 20-month period to explore the diffusion patterns of content generated by hateful versus non-hateful users.

Key Findings and Methodology

• Data Collection and Preliminary Insights: The paper leveraged a snowball methodology using Gab's API to gather user data, including post content, user profiles, and network interactions such as followers and followings. Crucially, the researchers applied lexicon-based filtering to identify hate speech, creating a list of high-precision unigrams and bigrams indicative of hateful content.
• Diffusion Dynamics: Analysis revealed that posts from hateful users tend to propagate faster and reach a broader audience than those from non-hateful users. Hateful content is intrinsically more influential, with hateful users comprising only 0.3% of the total user base but contributing to 18.65% of all content, indicating substantial information diffusion velocity and outreach disparity.
• Comparative Cascade Analysis: The research employed the Least Recent Influencer Model (LRIF) to model information diffusion as a Directed Acyclic Graph (DAG). Using this model, various cascade characteristics such as size, depth, breadth, and structural virality were computed. Across all metrics, hateful user posts consistently exhibited higher values, confirming their deeper network penetration and increased virality.
• Network Properties: The paper also examined the network properties of the user groups, establishing that users identified as hateful formed a more tightly interconnected and cohesive subnetwork. This network exhibited higher density and reciprocity compared to non-hateful user networks, emphasizing the community-oriented and reinforced nature of hate speech propagation.
• Temporal and Attachment-Based Diffusion: Posts containing multimedia elements (images and videos) demonstrated heightened virality and diffusion rates, paralleling real-world phenomena where visual content often engages wider audiences more effectively. Temporal analysis highlighted the rapid spreading nature of hateful user-generated content in its initial diffusion stages.

Implications and Future Directions

The paper offers compelling evidence of the robust network influence wielded by hateful content and its propagators in unregulated environments. This underscores the challenges facing content moderation systems and the importance of understanding cascading behaviors in efforts to mitigate hate speech online. From a theoretical perspective, the research contributes to diffusion model literature by adapting methodologies traditionally applied to non-malicious content to analyze toxic discourse.

Future research avenues could explore the role of multimedia in driving hate speech diffusion, potentially developing machine learning models capable of identifying hateful content in various formats. Additionally, investigating diffusion characteristics at the granularity of individual hateful posts could yield insights beneficial for devising targeted counter-strategies. Further, cross-platform examinations and comparisons with regulated environments would enhance understanding and ability to curb hate speech effectively. This paper forms a foundational step towards such efforts, providing essential insights into the mechanics of hate-fueled information propagation on social platforms like Gab.