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Seeding Network Influence in Biased Networks and the Benefits of Diversity

Ana-Andreea Stoica, Jessy Xinyi Han, Augustin Chaintreau

202044 citationsDOIOpen Access PDF

Abstract

The problem of social influence maximization is widely applicable in designing viral campaigns, news dissemination, or medical aid. State-of-the-art algorithms often select “early adopters” that are most central in a network unfortunately mirroring or exacerbating historical biases and leaving under-represented communities out of the loop. Through a theoretical model of biased networks, we characterize the intricate relationship between diversity and efficiency, which sometimes may be at odds but may also reinforce each other. Most importantly, we find a mathematically proven analytical condition under which more equitable choices of early adopters lead simultaneously to fairer outcomes and larger outreach. Analysis of data on the DBLP network confirms that our condition is often met in real networks. We design and test a set of algorithms leveraging the network structure to optimize the diffusion of a message while avoiding to create disparate impact among participants based on their demographics, such as gender or race.

Topics & Concepts

Computer scienceDiversity (politics)MaximizationMirroringOutreachOddsSet (abstract data type)Social network (sociolinguistics)DemographicsData scienceSocial network analysisMachine learningWorld Wide WebSocial mediaMathematical optimizationMathematicsSociologyDemographyProgramming languageLogistic regressionLawPolitical scienceAnthropologyCommunicationComplex Network Analysis TechniquesOpinion Dynamics and Social InfluenceGame Theory and Applications