Majority-vote model on random graphs

Pereira, Luiz Felipe C.; Moreira, F. G. Brady

doi:10.1103/physreve.71.016123

Cited by 119 publications

(145 citation statements)

References 14 publications

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“…Oliveira first verified this conjecture on a square lattice with periodic boundary conditions (i.e., a torus) [14]. Subsequently, the majority-vote model has been investigated on regular lattices (with dimension larger than two) [16,17,19,20], random lattice [21], directed or undirected random graphs [22,23], small world networks [24], and scale-free networks [25], etc. Very recently, it has been found that the critical behavior of the majority-vote model on square lattice is also independent of transition rates (e.g., the Glauber or Metropolis rates) [19].…”

Section: Introductionmentioning

confidence: 98%

Majority-vote model on hyperbolic lattices

Holme

2010

Phys. Rev. E

114

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We study the critical properties of a non-equilibrium statistical model, the majority-vote model, on heptagonal and dual heptagonal lattices. Such lattices have the special feature that they only can be embedded in negatively curved surfaces. We find, by using Monte Carlo simulations and finite-size analysis, that the critical exponents 1/ν, β/ν and γ/ν are different from those of the majority-vote model on regular lattices with periodic boundary condition, which belongs to the same universality class as the equilibrium Ising model. The exponents are also from those of the Ising model on a hyperbolic lattice. We argue that the disagreement is caused by the effective dimensionality of the hyperbolic lattices. By comparative studies, we find that the critical exponents of the majority-vote model on hyperbolic lattices satisfy the hyperscaling relation 2β/ν + γ/ν = D eff , where D eff is an effective dimension of the lattice. We also investigate the effect of boundary nodes on the ordering process of the model.

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Section: Introductionmentioning

confidence: 98%

Majority-vote model on hyperbolic lattices

Holme

2010

Phys. Rev. E

114

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“…To their surprise all results obtained for the critical exponents are different from results obtained by M. J. Oliveira, and are also different for each topology used. Pereira et al [49] then concluded that MVM has different universality classes which depend only on the topology used, and that all have one thing in common that is their effective dimension, obtained by critical exponents for each topology used, equals Deff = 1. Here, we show that the Zaklan model behavior is identical for all topologies or dynamics studied here.…”

Section: Introductionmentioning

confidence: 99%

Controlling the Tax Evasion Dynamics via Majority-Vote Model on Various Topologies

Lima¹

2012

TEL

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Within the context of agent-based Monte-Carlo simulations, we study the well-known majority-vote model (MVM) with noise applied to tax evasion on simple square lattices (LS), Honisch-Stauffer (SH), directed and undirected Barabasi-Albert (BAD, BAU) networks. In to control the fluctuations for tax evasion in the economics model proposed by Zaklan, MVM is applied in the neighborhood of the noise critical qc to evolve the Zaklan model. The Zaklan model had been studied recently using the equilibrium Ising model. Here we show that the Zaklan model is robust because this can be studied using equilibrium dynamics of Ising model also through the nonequilibrium MVM and on various topologies cited above giving the same behavior regardless of dynamic or topology used here.

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“…Where a is close to n/2, then there will be similarities between these transmission dynamics and majority vote models (e.g. [11,12]) although behaviour cessation will be qualitatively different.…”

Section: Dynamical Parametersmentioning

confidence: 99%

“…Modelling techniques have so far typically involved either explicit stochastic simulation [3 -6], or else application of mathematical models originally developed for other applications, such as the Susceptible-Infectious-Susceptible (SIS) epidemic model considered by Kiss et al [7] and Funk et al [8]. An alternative is to use a discrete-time formalism [9,10], next-generation arguments [5] or methods from statistical physics [11,12] to obtain results about asymptotic behaviour of socially motivated models, although typically calculating transient features of system dynamics requires Monte Carlo simulation.…”

Section: Introductionmentioning

confidence: 99%

Modelling behavioural contagion

House

2011

J. R. Soc. Interface.

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The last decade has seen much work on quantitative understanding of human behaviour, with online social interaction offering the possibility of more precise measurement of behavioural phenomena than was previously possible. A parsimonious model is proposed that incorporates several observed features of behavioural contagion not seen in existing epidemic model schemes, leading to metastable behavioural dynamics.

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Majority-vote model on random graphs

Cited by 119 publications

References 14 publications

Majority-vote model on hyperbolic lattices

Majority-vote model on hyperbolic lattices

Controlling the Tax Evasion Dynamics via Majority-Vote Model on Various Topologies

Modelling behavioural contagion

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