Long time behaviour and mean-field limit of Atlas models

Reygner, Julien

doi:10.1051/proc/201760132

Cited by 3 publications

(3 citation statements)

References 59 publications

(107 reference statements)

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“…The inequality (42) shows that F is bounded from below on P(R d ), which proves the statement (ii) of Lemma 2.10. We may now complete the proof of Lemma 4.1.…”

Section: Proof Of Theorems 214 and 216supporting

confidence: 67%

“…This particle system serves as a model for large equity markets, and is also related to the probabilistic interpretation of nonlinear scalar conservation laws [26,42].…”

Section: Example 23 (Mv-model)mentioning

confidence: 99%

“…(8), which ensures that the energy functional W defined by (9) is not identically equal to +∞. It is known [42] that the condition (18) ∀u ∈ (0, 1),…”

Section: 5mentioning

confidence: 99%

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Equilibrium large deviations for mean-field systems with translation invariance

Reygner¹

2018

Ann. Appl. Probab.

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We consider particle systems with mean-field interactions whose distribution is invariant by translations. Under the assumption that the system seen from its centre of mass be reversible with respect to a Gibbs measure, we establish large deviation principles for its empirical measure at equilibrium. Our study covers the cases of McKean-Vlasov particle systems without external potential, and systems of rank-based interacting diffusions. Depending on the strength of the interaction, the large deviation principles are stated in the space of centered probability measures endowed with the Wasserstein topology of appropriate order, or in the orbit space of the action of translations on probability measures. An application to the study of atypical capital distribution is detailed.2010 Mathematics Subject Classification. 60F10, 60J60, 60K35.

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“…The inequality (42) shows that F is bounded from below on P(R d ), which proves the statement (ii) of Lemma 2.10. We may now complete the proof of Lemma 4.1.…”

Section: Proof Of Theorems 214 and 216supporting

confidence: 67%

“…This particle system serves as a model for large equity markets, and is also related to the probabilistic interpretation of nonlinear scalar conservation laws [26,42].…”

Section: Example 23 (Mv-model)mentioning

confidence: 99%

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Equilibrium large deviations for mean-field systems with translation invariance

Reygner¹

2018

Ann. Appl. Probab.

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Propagation of Chaos for Point Processes Induced by Particle Systems with Mean-Field Drift Interaction

Kolliopoulos,

Larsson,

Zhang

2024

J Theor Probab

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We study the asymptotics of the point process induced by an interacting particle system with mean-field drift interaction. Under suitable assumptions, we establish propagation of chaos for this point process: It has the same weak limit as the point process induced by i.i.d. copies of the solution of a limiting McKean–Vlasov equation. This weak limit is a Poisson point process whose intensity measure is related to classical extreme value distributions. In particular, this yields the limiting distribution of the normalized upper order statistics.

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Ergodicity of a system of interacting random walks with asymmetric interaction

Andreis¹,

Asselah²,

Pra³

2019

Ann. Inst. H. Poincaré Probab. Statist.

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We study N interacting random walks on the positive integers. Each particle has drift δ towards infinity, a reflection at the origin, and a drift towards particles with lower positions. This inhomogeneous mean field system is shown to be ergodic only when the interaction is strong enough. We focus on this latter regime, and point out the effect of piles of particles, a phenomenon absent in models of interacting diffusion in continuous space.

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Long time behaviour and mean-field limit of Atlas models

Cited by 3 publications

References 59 publications

Equilibrium large deviations for mean-field systems with translation invariance

Equilibrium large deviations for mean-field systems with translation invariance

Propagation of Chaos for Point Processes Induced by Particle Systems with Mean-Field Drift Interaction

Ergodicity of a system of interacting random walks with asymmetric interaction

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