The Role of Frustration in Collective Decision-Making Dynamical Processes on Multiagent Signed Networks

Fontan, Angela; Altafini, Claudio

doi:10.1109/tac.2021.3123222

IEEE Trans. Automat. Contr.

2022

DOI: 10.1109/tac.2021.3123222

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The Role of Frustration in Collective Decision-Making Dynamical Processes on Multiagent Signed Networks

Angela Fontan

Claudio Altafini

Abstract: In this work we consider a collective decisionmaking process in a network of agents described by a nonlinear interconnected dynamical model with sigmoidal nonlinearities and signed interaction graph. The decisions are encoded in the equilibria of the system. The aim is to investigate this multiagent system when the signed graph representing the community is not structurally balanced and in particular as we vary its frustration, i.e., its distance to structural balance. The model exhibits bifurcations, and a "s… Show more

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Cited by 3 publications

References 36 publications

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From populations to networks: Relating diversity indices and frustration in signed graphs

Fontan,

Ratta,

Altafini

2024

PNAS Nexus

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Diversity indices of quadratic type, such as fractionalization and Simpson index, are measures of heterogeneity in a population. Even though they are univariate, they have an intrinsic bivariate interpretation as encounters among the elements of the population. In the paper, it is shown that this leads naturally to associate populations to weakly balanced signed networks. In particular, the frustration of such signed networks is shown to be related to fractionalization by a closed-form expression. This expression allows to simplify drastically the calculation of frustration for weakly balanced signed graphs.

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From populations to networks: Relating diversity indices and frustration in signed graphs

Fontan,

Ratta,

Altafini

2024

PNAS Nexus

Self Cite

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Switching Transformations for Decentralized Control of Opinion Patterns in Signed Networks: Application to Dynamic Task Allocation

Bizyaeva

Amorim

Santos

et al. 2022

IEEE Control Syst. Lett.

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We propose a new decentralized design to control opinion patterns on signed networks of agents making decisions about two options and to switch the network from any opinion pattern to a new desired one. Our method relies on switching transformations, which switch the sign of an agent's opinion at a stable equilibrium by flipping the sign of the interactions with its neighbors. The global dynamical behavior of the switched network can be predicted rigorously when the original, and thus the switched, networks are structurally balanced. Structural balance ensures that the network dynamics are monotone, which makes the study of the basin of attraction of the various opinion patterns amenable to monotone systems theory. We illustrate the utility of the approach through scenarios motivated by multi-robot coordination and dynamic task allocation. Index Terms-Network analysis and control, distributed control, agents-based systems, control of networks, decentralized control. I. INTRODUCTIONM ODERN networked technologies require decentralized mechanisms for decision-making and allocation of tasks. For example, systems such as smart power grids, cloud computing services, or multi-robot teams, call for strategies that dynamically distribute tasks among individual units to optimize system performance even as task requirements change or units experience failure.

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Nonlinear Opinion Dynamics With Tunable Sensitivity

Bizyaeva

Franci

Leonard

2023

IEEE Trans. Automat. Contr.

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The Role of Frustration in Collective Decision-Making Dynamical Processes on Multiagent Signed Networks

Cited by 3 publications

References 36 publications

From populations to networks: Relating diversity indices and frustration in signed graphs

From populations to networks: Relating diversity indices and frustration in signed graphs

Switching Transformations for Decentralized Control of Opinion Patterns in Signed Networks: Application to Dynamic Task Allocation

Nonlinear Opinion Dynamics With Tunable Sensitivity

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