Cucker-Smale Flocking With Inter-Particle Bonding Forces

Park, Jaemann; Kim, H J; Ha, Seung‐Yeal

doi:10.1109/tac.2010.2061070

Cited by 139 publications

(112 citation statements)

References 16 publications

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“…In fact, a lot of analysis has been done to explain the emergence of collective behavior in the dynamics of the C-S model. To name a few, avoidance of collision [1,13], flocking in random environment [2,14,24], mean-field limit in deterministic and stochastic sense [4,5], various type of collective behaviors emergence [3,8,9,10,15,16,17,18,20,21,25,27,28,42], local flocking [11,12,23], bonding force [37], generalized flocking [33], singular and hyperbolic limits [41], kinetic equation [19], application to flight formation [38] and flocking with leaders [32], etc. Instead of the original regular communication setting, In the present paper, we will consider the C-S model with singular communication weight ,i.e.…”

Section: Introductionmentioning

confidence: 99%

Complete classification of the asymptotical behavior for singular C-S model on the real line

Zhang

Zhu

2020

Journal of Differential Equations

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In this paper, we study the singular Cucker-Smale (C-S) model on the real line. For long range case, i.e. β < 1, we prove the uniqueness of the solution in the sense of Definition 2.1 and the unconditional flocking emergence. Moreover, the sufficient and necessary condition for collision and sticking phenomenon will be provided. For short range case, i.e. β > 1, we construct the uniform-in-time lower bound of the relative distance between particles and provide the sufficient and necessary condition for the emergence of multi-cluster formation. For critical case, i.e. β = 1, we show the uniform lower bound of the relative distance and unconditional flocking emergence. These results provide a complete classification of the collective behavior for C-S model on the real line.(In fact, recently, the C-S model with singular interaction (1.2) attracts a lot of attention from various area. This is mainly due to that the Coulomb type interaction will automatically generates the repulsion and leads to the avoidance of collision [7], which is more physical and very important for application in engineering such as formation of unmanned aerial vehicles. However, this singular communication weight causes a lot of difficulty in the mathematical analysis. For instance, the uniqueness of the solution to (1.1) cannot be guaranteed by the fundamental theory of ODE, because the vector field on the right hand side of (1.1) is no more Lipschitz. Therefore, comparing to the extensive study on regular communication weight, there are very few works concerning on the C-S model with singular interaction: flocking dynamics and mean-field limit [25], avoidance of collision [1,7], global existence of weak solutions in particle and kinetic level [6,35,39,40]. More precisely,in [39], the author constructed the global existence of weak solution without uniqueness. Meanwhile, the author in [39] found the finite time flocking phenomenon but only in two particles system. In [6,7], the authors proved the collision avoidance for C-S model in any finite time, but the uniform-in-time lower bound is still unknown. Moreover, in [26,22], the authors studied the C-S model with regular short range interaction and constructed a sufficient and necessary condition for the emergence of mono-cluster and multi-cluster formation, respectively. While, it is not clear wether the similar results can be obtained in the singular case. Therefore, may we address three natural questions as follows,• (Q1) Can we derive the uniqueness of the solution to the C-S model (1.1) with singular communication (1.2)? Moreover, can we find the sufficient and necessary condition for emergence of finite time flocking in N particle system?• (Q2) Can we construct the uniform-in-time lower bound between two particles of the C-S model with singular interaction, so that the collision avoidance occurs when time tends to infinity and asymptotical equilibrium state can be constructed?• (Q3) Can we obtain the sufficient and necessary condition for the emergence of mono-cluster and multi-cluster...

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Section: Introductionmentioning

confidence: 99%

Complete classification of the asymptotical behavior for singular C-S model on the real line

Zhang

Zhu

2020

Journal of Differential Equations

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“…The Cucker-Smale model is recently proposed and has been widely adopted by various disciplines (e.g., Park, Kim, & Ha, 2010;Perea, Elosegui, & Gò mez, 2009) but not yet introduced to sociology, despite of its rich social implications (see Flache & Macy 2011b, as a notable exception). In principle, the model is a simple but dynamic characterization of interactions and mutual influences among social actors.…”

Section: Discussionmentioning

confidence: 99%

How Do Cultural Classes Emerge from Assimilation and Distinction? An Extension of the Cucker-Smale Flocking Model

Kang

et al. 2013

The Journal of Mathematical Sociology

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When cultural tastes are not neutral but hierarchically matched to social status, people assimilate themselves to higher status by consuming cultural goods while distinguishing themselves from lower status by developing new tastes. Extending the Cucker-Smale model for mutual influence among agents, we examine when and how many cultural classes emerge from continuous distributions of tastes and what conditions those classes satisfy, through the assimilation-distinction mechanism. We simulate the models with different initial distributions of tastes (uniform, normal, and chi-square), given various ranges of 2 parameters: (a) the strength and (b) the range of distinction relative to assimilation. Tastes are flocking and cultural classes emerge when the range of assimilation is much larger than that of distinction. The number of classes increases with the strength of distinction, whereas the distance between classes equals the range of distinction. Some properties of emergent classes are mathematically proved. First, in a two-class system, the stronger distinction, the larger the upper class. Second, in a three-class system, the middle class is necessarily larger than the lower class and likely larger than the upper class. Third, a 3-class system cannot emerge if distinction is weaker than assimilation. These properties are universal and do not depend on the initial distribution of cultural tastes. This independence predicts homogeneous cultural classes emerging across different social conditions. Also, the cultural middle class as the largest group may explain why subjective class consciousness is often higher than objective position. Unless assimilating efforts can reach an infinite range, there emerges a cultural outcast at the lowest end of the cultural hierarchy.

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“…In 2007, Cucker and Smale [14] introduced a simple second-order Netwon-like model in the spirit of Vicsek's model [44] as an analytically manageable model, and they derived sufficient frameworks leading to the global and local asymptotic flocking on the complete graph. After their work, the Cucker-Smale(CS) model has been extensively studied in applied math community from several aspects, e.g., stochastic noises [1,4,13,27], discrete approximation [17,23], random failures [19,20,30,41], time-delayed communications [8,9,21,34], collision avoidance [10], network topologies [11,12,18,32,33,39,42], mean-field limit [26,28], kinetic and hydrodynamic descriptions [5,6,22,29,40], nonsymmetric communication networks [36], bonding force [38], extra internal variables [24,25], etc (see recent survey articles [2,7]).…”

Section: Introductionmentioning

confidence: 99%

Emergence of mono-cluster flocking in the thermomechanical Cucker–Smale model under switching topologies

Dong

Kim

2020

Anal. Appl.

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We study emergent dynamics of the discrete Cucker-Smale (in short, DCS) model with randomly switching network topologies. For this, we provide a sufficient framework leading to the stochastic flocking with probability one. Our sufficient framework is formulated in terms of an admissible set of network topologies realized by digraphs and probability density function for random switching times. As examples for the law of switching times, we use the Poisson process and the geometric process and show that these two processes satisfy the required conditions in a given framework so that we have a stochastic flocking with probability one. As a corollary of our flocking analysis, we improve the earlier result [15] on the continuous C-S model.

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Cucker-Smale Flocking With Inter-Particle Bonding Forces

Cited by 139 publications

References 16 publications

Complete classification of the asymptotical behavior for singular C-S model on the real line

Complete classification of the asymptotical behavior for singular C-S model on the real line

How Do Cultural Classes Emerge from Assimilation and Distinction? An Extension of the Cucker-Smale Flocking Model

Emergence of mono-cluster flocking in the thermomechanical Cucker–Smale model under switching topologies

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