Chernoff index for Cox test of separate parametric families

Li, Xiaoou; Liu, Jingchen; Ying, Zhiliang

doi:10.1214/16-aos1532

Cited by 9 publications

(3 citation statements)

References 32 publications

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“…

H_{0} : {bold-italicθ}^{'} = θ against H_{1} : ‖ {bold-italicθ}^{'} - θ ‖ \geq ε_{1}, {bold-italicθ}^{'} \in Θ,

whose exponential decay rate has been established in Lemma 3 in Li, Liu, and Ying (2016), that there exists a rate ρ > 0 such that

P ({sup}_{‖ {bold-italicθ}^{'} - θ ‖ \geq ε_{1}, {bold-italicθ}^{'} \in Θ} {l ({bold-italicθ}^{'}) - l (θ)} \geq C_{2} N λ_{N}^{2}) = e^{- (ρ + o (1)) N}

. Choosing ε 2 to be positive and smaller than ρ , we conclude our proof.…”

Section: E-stepmentioning

confidence: 99%

Regularized Latent Class Analysis with Application in Cognitive Diagnosis

Chen

Liu

et al. 2016

Psychometrika

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Diagnostic classification models are confirmatory in the sense that the relationship between the latent attributes and responses to items is specified or parameterized. Such models are readily interpretable with each component of the model usually having a practical meaning. However; parameterized diagnostic classification models are sometimes too simple to capture all the data patterns, resulting in significant model lack of fit. In this paper, we attempt to obtain a compromise between interpretability and goodness of fit by regularizing a latent class model. Our approach starts with minimal assumptions on the data structure, followed by suitable regularization to reduce complexity, so that readily interpretable, yet flexible model is obtained. An expectation–maximization-type algorithm is developed for efficient computation. It is shown that the proposed approach enjoys good theoretical properties. Results from simulation studies and a real application are presented.

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“…

H_{0} : {bold-italicθ}^{'} = θ against H_{1} : ‖ {bold-italicθ}^{'} - θ ‖ \geq ε_{1}, {bold-italicθ}^{'} \in Θ,

whose exponential decay rate has been established in Lemma 3 in Li, Liu, and Ying (2016), that there exists a rate ρ > 0 such that

P ({sup}_{‖ {bold-italicθ}^{'} - θ ‖ \geq ε_{1}, {bold-italicθ}^{'} \in Θ} {l ({bold-italicθ}^{'}) - l (θ)} \geq C_{2} N λ_{N}^{2}) = e^{- (ρ + o (1)) N}

. Choosing ε 2 to be positive and smaller than ρ , we conclude our proof.…”

Section: E-stepmentioning

confidence: 99%

Regularized Latent Class Analysis with Application in Cognitive Diagnosis

Chen

Liu

et al. 2016

Psychometrika

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“…Traditional methods, such as the ones adopted in [20,45], are based on exponential change-of-measure of the log-likelihood ratio statistics, and are not directly applicable to the ranking problem considered here. The method we use in the proof combines a mixture-type of change-of-measure method recently proposed in [1,37,39] and large deviation results for martingales.…”

Section: Main Contributionmentioning

confidence: 99%

Asymptotically Optimal Sequential Design for Rank Aggregation

Chen¹,

Chen²,

2022

Mathematics of OR

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A sequential design problem for rank aggregation is commonly encountered in psychology, politics, marketing, sports, etc. In this problem, a decision maker is responsible for ranking K items by sequentially collecting noisy pairwise comparisons from judges. The decision maker needs to choose a pair of items for comparison in each step, decide when to stop data collection, and make a final decision after stopping based on a sequential flow of information. Because of the complex ranking structure, existing sequential analysis methods are not suitable. In this paper, we formulate the problem under a Bayesian decision framework and propose sequential procedures that are asymptotically optimal. These procedures achieve asymptotic optimality by seeking a balance between exploration (i.e., finding the most indistinguishable pair of items) and exploitation (i.e., comparing the most indistinguishable pair based on the current information). New analytical tools are developed for proving the asymptotic results, combining advanced change of measure techniques for handling the level crossing of likelihood ratios and classic large deviation results for martingales, which are of separate theoretical interest in solving complex sequential design problems. A mirror-descent algorithm is developed for the computation of the proposed sequential procedures.

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“…Moreover, the proposed method can be extended to the estimation of non-Gaussian tail probabilities. For instance, in statistical hypothesis testing with data generated independently from certain distribution with unknown parameters that are of interest, it often needs to evaluate the test power/error probabilities for a range of model parameters as the sample size increase; see [22] for an example.…”

Section: Uniform Efficiencymentioning

confidence: 99%

Uniformly efficient simulation for extremes of Gaussian random fields

2018

J. Appl. Probab.

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This paper considers the problem of simultaneously estimating rare-event probabilities for a class of Gaussian random fields. A conventional rareevent simulation method is usually tailored to a specific rare event and consequently would lose estimation efficiency for different events of interest, which often results in additional computational cost in such simultaneous estimation problem. To overcome this issue, we propose a uniformly efficient estimator for a general family of Hölder continuous Gaussian random fields.We establish the asymptotic and uniform efficiency of the proposed method and also conduct simulation studies to illustrate its effectiveness.

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Chernoff index for Cox test of separate parametric families

Cited by 9 publications

References 32 publications

Regularized Latent Class Analysis with Application in Cognitive Diagnosis

Regularized Latent Class Analysis with Application in Cognitive Diagnosis

Asymptotically Optimal Sequential Design for Rank Aggregation

Uniformly efficient simulation for extremes of Gaussian random fields

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