Positive algorithmic bias cannot stop fragmentation in homophilic networks
Chris Blex, Taha Yasseri
Abstract
Fragmentation, echo chambers, and their amelioration in social networks have been a growing concern in the academic and non-academic world. This paper shows how, under the assumption of homophily, echo chambers and fragmentation are system-immanent phenomena of highly flexible social networks, even under ideal conditions for heterogeneity. We achieve this by finding an analytical, network-based solution to the Schelling model and by proving that weak ties do not hinder the process. Furthermore, we derive that no level of positive algorithmic bias in the form of rewiring is capable of preventing fragmentation and its effect on reducing the fragmentation speed is negligible.
Topics & Concepts
HomophilyFragmentation (computing)Computer scienceDistributed computingStatistical physicsPsychologyPhysicsSocial psychologyOperating systemComplex Network Analysis TechniquesOpinion Dynamics and Social InfluenceEvolutionary Game Theory and Cooperation