Agent-Based Spatial Dynamic Modeling of Opinion Propagation Exploring Delaying Conditions to Achieve Homogeneity
- Leire Ozaeta 1
- Manuel Graña 1
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1
Universidad del País Vasco/Euskal Herriko Unibertsitatea
info
Universidad del País Vasco/Euskal Herriko Unibertsitatea
Lejona, España
- Manuel Graña (coord.)
- José Manuel López-Guede (coord.)
- Oier Etxaniz (coord.)
- Álvaro Herrero (coord.)
- Héctor Quintián (coord.)
- Emilio Corchado (coord.)
Editorial: Springer Suiza
ISBN: 978-3-319-47364-2, 3-319-47364-6, 978-3-319-47363-5, 3-319-47363-8
Año de publicación: 2017
Páginas: 177-188
Congreso: International Conference on Computational Intelligence in Security for Information Systems (9. 2016. San Sebastián)
Tipo: Aportación congreso
Resumen
Most computational models of influence spread nowadays are motivated by the need to identify the social actors with maximal influence, in order to achieve high penetration in the market with minimal effort. However, there are little literature on the mechanisms of influence propagation, i.e. computational models of how the social actors change their opinions. There are some works that relate the spatial distribution of the opinions with the mechanism by which an agent changes or maintains its opinions, but they assume a cell model, where agents have fixed spatial locations and neighbors. Here we explore the effect of spatial interaction of the agents, which are free to move in a given space, following attraction dynamics towards agents with similar opinions. The spatial distribution of opinions observed by the agent is used by the agent to decide about opinion changes. We report preliminary results of simulations carried out in Netlogo environment for the first three kinds of systems.