Flocking dynamics with voter-like interactions
We study the collective motion of a large set of self-propelled particles subject to voter-like interactions. Each particle moves on a two-dimensional space at a constant speed in a direction that is randomly assigned initially. Then, at every step of the dynamics, each particle adopts the direction...
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| Published in | arXiv.org |
|---|---|
| Main Authors | , |
| Format | Paper Journal Article |
| Language | English |
| Published |
Ithaca
Cornell University Library, arXiv.org
11.04.2019
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| Online Access | Get full text |
| ISSN | 2331-8422 |
| DOI | 10.48550/arxiv.1608.08231 |
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| Abstract | We study the collective motion of a large set of self-propelled particles subject to voter-like interactions. Each particle moves on a two-dimensional space at a constant speed in a direction that is randomly assigned initially. Then, at every step of the dynamics, each particle adopts the direction of motion of a randomly chosen neighboring particle. We investigate the time evolution of the global alignment of particles measured by the order parameter \(\varphi\), until complete order \(\varphi=1.0\) is reached (polar consensus). We find that \(\varphi\) increases as \(t^{1/2}\) for short times and approaches exponentially fast to \(1.0\) for long times. Also, the mean time to consensus \(\tau\) varies non-monotonically with the density of particles \(\rho\), reaching a minimum at some intermediate density \(\rho_{\tiny \mbox{min}}\). At \(\rho_{\tiny \mbox{min}}\), the mean consensus time scales with the system size \(N\) as \(\tau_{\tiny \mbox{min}} \sim N^{0.765}\), and thus the consensus is faster than in the case of all-to-all interactions (large \(\rho\)) where \(\tau=2N\). We show that the fast consensus, also observed at intermediate and high densities, is a consequence of the segregation of the system into clusters of equally-oriented particles which breaks the balance of transitions between directional states in well mixed systems. |
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| AbstractList | J. Stat. Mech. (2018) 033403 We study the collective motion of a large set of self-propelled particles
subject to voter-like interactions. Each particle moves on a two-dimensional
space at a constant speed in a direction that is randomly assigned initially.
Then, at every step of the dynamics, each particle adopts the direction of
motion of a randomly chosen neighboring particle. We investigate the time
evolution of the global alignment of particles measured by the order parameter
$\varphi$, until complete order $\varphi=1.0$ is reached (polar consensus). We
find that $\varphi$ increases as $t^{1/2}$ for short times and approaches
exponentially fast to $1.0$ for long times. Also, the mean time to consensus
$\tau$ varies non-monotonically with the density of particles $\rho$, reaching
a minimum at some intermediate density $\rho_{\tiny \mbox{min}}$. At
$\rho_{\tiny \mbox{min}}$, the mean consensus time scales with the system size
$N$ as $\tau_{\tiny \mbox{min}} \sim N^{0.765}$, and thus the consensus is
faster than in the case of all-to-all interactions (large $\rho$) where
$\tau=2N$. We show that the fast consensus, also observed at intermediate and
high densities, is a consequence of the segregation of the system into clusters
of equally-oriented particles which breaks the balance of transitions between
directional states in well mixed systems. We study the collective motion of a large set of self-propelled particles subject to voter-like interactions. Each particle moves on a two-dimensional space at a constant speed in a direction that is randomly assigned initially. Then, at every step of the dynamics, each particle adopts the direction of motion of a randomly chosen neighboring particle. We investigate the time evolution of the global alignment of particles measured by the order parameter \(\varphi\), until complete order \(\varphi=1.0\) is reached (polar consensus). We find that \(\varphi\) increases as \(t^{1/2}\) for short times and approaches exponentially fast to \(1.0\) for long times. Also, the mean time to consensus \(\tau\) varies non-monotonically with the density of particles \(\rho\), reaching a minimum at some intermediate density \(\rho_{\tiny \mbox{min}}\). At \(\rho_{\tiny \mbox{min}}\), the mean consensus time scales with the system size \(N\) as \(\tau_{\tiny \mbox{min}} \sim N^{0.765}\), and thus the consensus is faster than in the case of all-to-all interactions (large \(\rho\)) where \(\tau=2N\). We show that the fast consensus, also observed at intermediate and high densities, is a consequence of the segregation of the system into clusters of equally-oriented particles which breaks the balance of transitions between directional states in well mixed systems. |
| Author | Vazquez, Federico Baglietto, Gabriel |
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| BackLink | https://doi.org/10.1088/1742-5468/aaac3e$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.1608.08231$$DView paper in arXiv |
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| Snippet | We study the collective motion of a large set of self-propelled particles subject to voter-like interactions. Each particle moves on a two-dimensional space at... J. Stat. Mech. (2018) 033403 We study the collective motion of a large set of self-propelled particles subject to voter-like interactions. Each particle moves... |
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| Title | Flocking dynamics with voter-like interactions |
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