Your search keyword '"Miguel, Sergio Brenner"' showing total 11 results

1. Multiplicative deconvolution under unknown error distribution

Author

Miguel, Sergio Brenner, Johannes, Jan, and Siebel, Maximilian

Subjects

Mathematics - Statistics Theory

Abstract

We consider a multiplicative deconvolution problem, in which the density $f$ or the survival function $S^X$ of a strictly positive random variable $X$ is estimated nonparametrically based on an i.i.d. sample from a noisy observation $Y = X\cdot U$ of $X$. The multiplicative measurement error $U$ is supposed to be independent of $X$. The objective of this work is to construct a fully data-driven estimation procedure when the error density $f^U$ is unknown. We assume that in addition to the i.i.d. sample from $Y$, we have at our disposal an additional i.i.d. sample drawn independently from the error distribution. The proposed estimation procedure combines the estimation of the Mellin transformation of the density $f$ and a regularisation of the inverse of the Mellin transform by a spectral cut-off. The derived risk bounds and oracle-type inequalities cover both - the estimation of the density $f$ as well as the survival function $S^X$. The main issue addressed in this work is the data-driven choice of the cut-off parameter using a model selection approach. We discuss conditions under which the fully data-driven estimator can attain the oracle-risk up to a constant without any previous knowledge of the error distribution. We compute convergences rates under classical smoothness assumptions. We illustrate the estimation strategy by a simulation study with different choices of distributions.

Published

2023

2. Adaptive local density estimation in tomography

Author

Miguel, Sergio Brenner and Steck, Janine

Subjects

Mathematics - Statistics Theory, Primary 62G07, secondary 44A12, 62C20

Abstract

We study the non-parametric estimation of a multidimensional unknown density f in a tomography problem based on independent and identically distributed observations, whose common density is proportional to the Radon transform of f. We identify the underlying statistical inverse problem and use a spectral cut-off regularisation to deduce an estimator. A fully data-driven choice of the cut-off parameter m in R+ is proposed and studied. To discuss the bias-variance trade off, we consider Sobolev spaces and show the minimax-optimality of the spectral cut-off density estimator. In a simulation study, we illustrate a reasonable behaviour of the studied fully data-driven estimator., Comment: 19 pages, 8 figures

Published

2023

3. Volatility density estimation by multiplicative deconvolution

Author

Miguel, Sergio Brenner

Subjects

Mathematics - Statistics Theory, Primary 62G05, secondary 62G07, 62M05

Abstract

We study the non-parametric estimation of an unknown stationary density fV of an unobserved strictly stationary volatility process $(\bm V_t)_{t\geq 0}$ on $\IRp^2 := (0,\infty)^2$ based on discrete-time observations in a stochastic volatility model. We identify the underlying multiplicative measurement error model and build an estimator based on the estimation of the Mellin transform of the scaled, integrated volatility process and a spectral cut-off regularisation of the inverse of the Mellin transform. We prove that the proposed estimator leads to a consistent estimation strategy. A fully data-driven choice of $\bm k \in \IRp^2$ is proposed and upper bounds for the mean integrated squared risk are provided. Throughout our study, regularity properties of the volatility process are necessary for the analsysis of the estimator. These assumptions are fulfilled by several examples of volatility processes which are listed and used in a simulation study to illustrate a reasonable behaviour of the proposed estimator., Comment: 25 pages

Published

2022

4. Linear functional estimation under multiplicative measurement errors

Author

Miguel, Sergio Brenner, Comte, Fabienne, and Johannes, Jan

Subjects

Mathematics - Statistics Theory, Primary 62G05, secondary 62F10, 62C20

Abstract

We study the non-parametric estimation of the value ${\theta}(f )$ of a linear functional evaluated at an unknown density function f with support on $R_+$ based on an i.i.d. sample with multiplicative measurement errors. The proposed estimation procedure combines the estimation of the Mellin transform of the density $f$ and a regularisation of the inverse of the Mellin transform by a spectral cut-off. In order to bound the mean squared error we distinguish several scenarios characterised through different decays of the upcoming Mellin transforms and the smoothnes of the linear functional. In fact, we identify scenarios, where a non-trivial choice of the upcoming tuning parameter is necessary and propose a data-driven choice based on a Goldenshluger-Lepski method. Additionally, we show minimax-optimality over Mellin-Sobolev spaces of the estimator., Comment: 25 pages

Published

2021

5. Multiplicative deconvolution estimator based on a ridge approach

Author

Miguel, Sergio Brenner

Subjects

Mathematics - Statistics Theory, Primary 62G05, secondary 62G07, 62C20

Abstract

We study the non-parametric estimation of an unknown density f with support on R+ based on an i.i.d. sample with multiplicative measurement errors. The proposed fully-data driven procedure consists of the estimation of the Mellin transform of the density f and a regularisation of the inverse of the Mellin transform by a ridge approach. The upcoming bias-variance trade-off is dealt with by a data-driven choice of the ridge parameter. In order to discuss the bias term, we consider the Mellin-Sobolev spaces which characterise the regularity of the unknown density f through the decay of its Mellin transform. Additionally, we show minimax-optimality over Mellin-Sobolev spaces of the ridge density estimator., Comment: 15 pages, 2 figures, 1 table. arXiv admin note: text overlap with arXiv:2107.02120

Published

2021

6. Multiplicative deconvolution in survival analysis under dependency

Author

Miguel, Sergio Brenner and Phandoidaen, Nathawut

Subjects

Mathematics - Statistics Theory, Primary 62G05, secondary 62N02, 62C20

Abstract

We study the non-parametric estimation of an unknown survival function S with support on R+ based on a sample with multiplicative measurement errors. The proposed fully-data driven procedure is based on the estimation of the Mellin transform of the survival function S and a regularisation of the inverse of the Mellin transform by a spectral cut-off. The upcoming bias-variance trade-off is dealt with by a data-driven choice of the cut-off parameter. In order to discuss the bias term, we consider the Mellin-Sobolev spaces which characterize the regularity of the unknown survival function S through the decay of its Mellin transform. For the analysis of the variance term, we consider the i.i.d. case and incorporate dependent observations in form of Bernoulli shift processes and beta mixing sequences. Additionally, we show minimax-optimality over Mellin-Sobolev spaces of the spectral cut-off estimator., Comment: 29 pages, 2 figures, 2 tables

Published

2021

7. Anisotropic spectral cut-off estimation under multiplicative measurement errors

Author

Miguel, Sergio Brenner

Subjects

Mathematics - Statistics Theory, Primary 62G05, secondary 62G07, 62C20

Abstract

We study the non-parametric estimation of an unknown density f with support on R+^d based on an i.i.d. sample with multiplicative measurement errors. The proposed fully-data driven procedure is based on the estimation of the Mellin transform of the density f and a regularisation of the inverse of the Mellin transform by a spectral cut-off. The upcoming bias-variance trade-off is dealt with by a data-driven anisotropic choice of the cut-off parameter. In order to discuss the bias term, we consider the Mellin-Sobolev spaces which characterize the regularity of the unknown density f through the decay of its Mellin transform. Additionally, we show minimax-optimality over Mellin-Sobolev spaces of the spectral cut-off density estimator., Comment: 21 pages, 4 figures, 2 tables

Published

2021

8. Spectral cut-off regularisation for density estimation under multiplicative measurement errors

Author

Miguel, Sergio Brenner, Comte, Fabienne, and Johannes, Jan

Subjects

Mathematics - Statistics Theory, Primary 62G05, secondary 62G07, 62C20

Abstract

We study the non-parametric estimation of an unknown density f with support on R+ based on an i.i.d. sample with multiplicative measurement errors. The proposed fully data driven procedure is based on the estimation of the Mellin transform of the density f , a regularisation of the inverse of the Mellin transform by a spectral cut-off and a data-driven model selection in order to deal with the upcoming bias-variance trade-off. We introduce and discuss further Mellin-Sobolev spaces which characterize the regularity of the unknown density f through the decay of its Mellin transform. Additionally, we show minimax-optimality over Mellin-Sobolev spaces of the data-driven density estimator and hence its adaptivity., Comment: 22 pages, 2 figures

Published

2020

9. Data-driven aggregation in non-parametric density estimation on the real line

Author

Miguel, Sergio Brenner and Johannes, Jan

Subjects

Mathematics - Statistics Theory, 62G05 (Primary) 62G07, 62C20 (Secondary)

Abstract

We study non-parametric estimation of an unknown density with support in R (respectively R+). The proposed estimation procedure is based on the projection on finite dimensional subspaces spanned by the Hermite (respectively the Laguerre) functions. The focus of this paper is to introduce a data-driven aggregation approach in order to deal with the upcoming bias-variance trade-off. Our novel procedure integrates the usual model selection method as a limit case. We show the oracle- and the minimax-optimality of the data-driven aggregated density estimator and hence its adaptivity. We present results of a simulation study which allow to compare the finite sample performance of the data-driven estimators using model selection compared to the new aggregation.

Published

2020

10. Elevated high sensitive C-reactive protein in fibromyalgia.

Author

Beiner, Eva, Miguel, Sergio Brenner, Friederich, Hans-Christoph, and Tesarz, Jonas

Subjects

FIBROMYALGIA, SLEEP interruptions, ANALYSIS of covariance, FATIGUE (Physiology), CHRONIC pain, C-reactive protein

Abstract

Introduction: Fibromyalgia syndrome (FMS) is a complex chronic pain condition characterized by widespread pain and tenderness, fatigue, and sleep disturbances. Currently, factors contributing to FMS are considered to be multifactorial, and the involvement of inflammatory processes is a question of debate. Objective: The aims of this study were (1) to assess whether serum concentrations of high-sensitivity C-reactive protein (hsCRP) differ between individuals diagnosed with FMS and pain-free controls, (2) to determine whether these differences are associated with clinical symptoms, and (3) to explore whether the observed differences can be explained by specific covariates such as age, weight, and smoking status. Methods: An ANOVA was applied to identify differences of hsCRP levels between FMS and pain-free controls and an analysis of covariance (ANCOVA) was performed to investigate the dependencies of hsCRP with respect to covariates. To assess the reliability of our findings, we also utilized a Bayesian robust estimation model to determine the level of confidence associated with our results. Results: The results showed that individuals with FMS had higher hsCRP levels compared to healthy controls [F(1,106)  =  8.802, p  <  0.001] and that higher hsCRP levels were significant correlated with a higher symptom burden (r  =  0. 287, p  =  0.008) and more tender points (r  =  0.307, p  =  0.005). Further, hsCRP levels were significantly associated with weight (η² =  0.154, p  <  0.001), but independent of age (η² =  0.005, p  =  0.42), smoking status (η² =  0.002, p  =  0.623), or gender (η² =  0.0045, p  =  0.437), which resulted in an insignificant group effect between FMS and controls (η² =  0.029, p  =  0.052), even after controlling for covariates. Conclusion: In conclusion, this study provides evidence that sub-inflammatory processes correlate with clinical symptoms, which can be partly attributed to differences in weight, but cannot be fully explained by them. Further research is needed to elucidate the mechanisms underlying the association between hsCRP and FMS and to explore the potential therapeutic implications of targeting hsCRP in the management of FMS. [ABSTRACT FROM AUTHOR]

Published

2023

11. Anisotropic spectral cut-off estimation under multiplicative measurement errors

Author

Miguel, Sergio Brenner

Subjects

Primary 62G05, secondary 62G07, 62C20, Statistics and Probability, Numerical Analysis, Mathematics::Number Theory, FOS: Mathematics, Mathematics - Statistics Theory, Statistics Theory (math.ST), Statistics, Probability and Uncertainty

Abstract

We study the non-parametric estimation of an unknown density f with support on R+^d based on an i.i.d. sample with multiplicative measurement errors. The proposed fully-data driven procedure is based on the estimation of the Mellin transform of the density f and a regularisation of the inverse of the Mellin transform by a spectral cut-off. The upcoming bias-variance trade-off is dealt with by a data-driven anisotropic choice of the cut-off parameter. In order to discuss the bias term, we consider the Mellin-Sobolev spaces which characterize the regularity of the unknown density f through the decay of its Mellin transform. Additionally, we show minimax-optimality over Mellin-Sobolev spaces of the spectral cut-off density estimator., 21 pages, 4 figures, 2 tables

Published

2022