带有弱相关噪声的散粒噪声过程的泛函极限定理

Q1 Mathematics

Stochastic Systems Pub Date : 2020-06-01 DOI:10.1287/stsy.2019.0051

G. Pang, Yuhang Zhou

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引用次数: 5

摘要

研究了弹丸噪声弱相关且满足ρ混合条件下的弹丸噪声过程。在高射强的渐近状态下，证明了该射噪声过程的一个泛函弱大数定律和一个泛函中心极限定理。确定性流体极限不受弱依赖性存在的影响。扩散尺度上的极限是一个连续的高斯过程，其协方差函数明确地捕获了噪声之间的相关性。该模型和结果可以应用于具有依赖索赔的金融和保险风险，以及具有依赖服务时间的排队系统。为了证明极限过程的存在性，我们使用了一个极大不等式的存在性判据，该不等式要求一个集函数具有超可加性。利用ρ-混合条件，确定了极限过程的集函数。为了证明弱收敛性，我们建立了有限维分布的紧性和收敛性。为了证明紧密性，我们构造了两个辅助过程，并对弱相关序列应用了一个ottaviani型不等式。

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Functional Limit Theorems for Shot Noise Processes with Weakly Dependent Noises

We study shot noise processes when the shot noises are weakly dependent, satisfying the ρ-mixing condition. We prove a functional weak law of large numbers and a functional central limit theorem for this shot noise process in an asymptotic regime with a high intensity of shots. The deterministic fluid limit is unaffected by the presence of weak dependence. The limit in the diffusion scale is a continuous Gaussian process whose covariance function explicitly captures the dependence among the noises. The model and results can be applied in financial and insurance risks with dependent claims as well as queueing systems with dependent service times. To prove the existence of the limit process, we employ the existence criterion that uses a maximal inequality requiring a set function with a superadditivity property. We identify such a set function for the limit process by exploiting the ρ-mixing condition. To prove the weak convergence, we establish the tightness property and the convergence of finite dimensional distributions. To prove tightness, we construct two auxiliary processes and apply an Ottaviani-type inequality for weakly dependent sequences.

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来源期刊

Stochastic Systems Decision Sciences-Statistics, Probability and Uncertainty

CiteScore

3.70

自引率

0.00%

发文量