Complete convergence of weighted sums under negative dependence

Zarei, Hemadollah; Nooghabi, Hadi Jabbari

doi:10.1007/s00362-009-0238-4

Cited by 34 publications

(9 citation statements)

References 11 publications

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“…As pointed out and proved by Joag-Dev and Proschan (1983), a number of well-known multivariate distributions possess the NA property, such as multinomial, convolution of unlike multionmial, multivariate hypergeometric, Dirichlet, permutation distribution, negatively correlated normal distribution, random sampling without replacement and joint distribution of ranks. For more details about NA random variables, one can refer to Matula (1992), Shao (2000), Chen et al (2008), Ling (2008), Liang and Zhang (2010), Sung (2011), Zarei and Jabbari (2011), Hu (2012, 2014), Wang et al (2011Wang et al ( , 2014a, and so on.…”

Section: Introductionmentioning

confidence: 99%

Moment inequalities for m-negatively associated random variables and their applications

et al. 2015

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The moment inequalities for m-NA random variables, especially the Marcinkiewicz-Zygmund type inequality and Rosenthal type inequality are established and the Khintchine-Kolmogorov convergence theorem and the three series theorem for m-NA random variables are also obtained. As one application of the moment inequalities, we study the large deviation for least squares estimator in nonlinear regression models under some general conditions. As another application, we investigate the strong consistency for least squares estimator in multiple linear regression models based on m-NA random variables.Keywords m-Negatively associated random variables · Marcinkiewicz-Zygmund type inequality · Rosenthal type inequality · Nonlinear regression models · Multiple linear regression models Mathematics Subject Classification 60E05 · 60F15 · 62J02 · 62J05 · 62F12

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Section: Introductionmentioning

confidence: 99%

Moment inequalities for m-negatively associated random variables and their applications

et al. 2015

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“…random variables converges completely to the expected value if the variance of the summands is finite. This result has been generalized and extended in several directions, see Gut ([3], [4]), Hu et al ( [7], [8]), Chen et al ( [2]), Sung ([14], [15], [17]), Zarei and Jabbari ( [20]), Baek et al ([1]). In particular, Sung ([14]) obtained the following two Theorems A and B.…”

Section: Introductionmentioning

confidence: 99%

On the Complete Convergence for Arrays of Rowwise Extended Negatively Dependent Random Variables

De-hua¹,

Chen²,

Antonini³

et al. 2013

Journal of the Korean Mathematical Society

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“…A number of useful results for NOD random variables have been established by many authors. We refer to Volodin [19] for the Kolmogorov exponential inequality, Asadian et al [1] for Rosenthal's type inequality, Zarei and Jabbari [28], Wu [24], Wang et al [20], Sung [18], Yi et al [27] and Chen and Sung [4] for complete convergence, Wang et al [21] and Sung [17] for exponential inequalities, Wu and Jiang [25] for the strong consistency of M estimator in a linear model, Shen [12,14] for strong limit theorems of weighted sums, Shen [15] for the asymptotic approximation of inverse moments, Wang and Si [22] for the complete consistency of estimator of nonparametric regression model, Qiu et al [11] and Wu and Volodin [26] for the complete moment convergence, and so on.…”

Section: Deng and X Wangmentioning

confidence: 99%

Equivalent Conditions of Complete Moment Convergence and Complete Integral Convergence for Nod Sequences

Deng¹,

Wang²

2017

Bulletin of the Korean Mathematical Society

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In this paper, seven equivalent conditions of complete moment convergence and complete integral convergence for negatively orthant dependent (NOD, in short) sequences are shown under two cases: identical distribution and stochastic domination. The results obtained in the paper improve and generalize the corresponding ones of Liang et al. [10]). In addition, an extension of the Baum-Katz complete convergence theorem: six equivalent conditions of complete convergence is established.

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Complete convergence of weighted sums under negative dependence

Abstract: Negatively dependent, Complete convergence, Weighted sums, 60F15,

Cited by 34 publications

References 11 publications

Moment inequalities for m-negatively associated random variables and their applications

Moment inequalities for m-negatively associated random variables and their applications

On the Complete Convergence for Arrays of Rowwise Extended Negatively Dependent Random Variables

Equivalent Conditions of Complete Moment Convergence and Complete Integral Convergence for Nod Sequences

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