English

Containment Control for a Social Network with State-Dependent Connectivity

Systems and Control 2014-02-25 v1

Abstract

Social interactions influence our thoughts, opinions and actions. In this paper, social interactions are studied within a group of individuals composed of influential social leaders and followers. Each person is assumed to maintain a social state, which can be an emotional state or an opinion. Followers update their social states based on the states of local neighbors, while social leaders maintain a constant desired state. Social interactions are modeled as a general directed graph where each directed edge represents an influence from one person to another. Motivated by the non-local property of fractional-order systems, the social response of individuals in the network are modeled by fractional-order dynamics whose states depend on influences from local neighbors and past experiences. A decentralized influence method is then developed to maintain existing social influence between individuals (i.e., without isolating peers in the group) and to influence the social group to a common desired state (i.e., within a convex hull spanned by social leaders). Mittag-Leffler stability methods are used to prove asymptotic stability of the networked fractional-order system.

Keywords

Cite

@article{arxiv.1402.5644,
  title  = {Containment Control for a Social Network with State-Dependent Connectivity},
  author = {Zhen Kan and Justin Klotz and Eduardo L. Pasiliao and Warren E. Dixon},
  journal= {arXiv preprint arXiv:1402.5644},
  year   = {2014}
}

Comments

9 pages, 2 figures, submitted to Automatica

R2 v1 2026-06-22T03:13:58.753Z