Your search keyword '"Corso, Gilberto"' showing total 4 results

1. An outlier-resistant $κ$-generalized approach for robust physical parameter estimation

Author

da Silva, Sérgio Luiz E. F., Silva, R., Lima, Gustavo Z. dos Santos, de Araújo, João M., and Corso, Gilberto

Subjects

Statistical Mechanics (cond-mat.stat-mech), FOS: Physical sciences, Data Analysis, Statistics and Probability (physics.data-an), Geophysics (physics.geo-ph)

Abstract

In this work we propose a robust methodology to mitigate the undesirable effects caused by outliers to generate reliable physical models. In this way, we formulate the inverse problems theory in the context of Kaniadakis statistical mechanics (or $κ$-statistics), in which the classical approach is a particular case. In this regard, the errors are assumed to be distributed according to a finite-variance $κ$-generalized Gaussian distribution. Based on the probabilistic maximum-likelihood method we derive a $κ$-objective function associated with the finite-variance $κ$-Gaussian distribution. To demonstrate our proposal's outlier-resistance, we analyze the robustness properties of the $κ$-objective function with help of the so-called influence function. In this regard, we discuss the role of the entropic index ($κ$) associated with the Kaniadakis $κ$-entropy in the effectiveness in inferring physical parameters by using strongly noisy data. In this way, we consider a classical geophysical data-inverse problem in two realistic circumstances, in which the first one refers to study the sensibility of our proposal to uncertainties in the input parameters, and the second is devoted to the inversion of a seismic data set contaminated by outliers. The results reveal an optimum $κ$-value at the limit $κ\rightarrow 2/3$, which is related to the best results., 37 pages, 23 figures

Published

2021

2. Stationarity breaking in coupled physical systems revealed by recurrence analysis

Author

Prado, Thiago de Lima, Lima, Gustavo Zampier dos Santos, Lobão-Soares, Bruno, Nascimento, George Carlos do, Corso, Gilberto, and Lopes, Sergio Roberto

Subjects

Quantitative Biology - Neurons and Cognition, FOS: Biological sciences, FOS: Physical sciences, Neurons and Cognition (q-bio.NC), Chaotic Dynamics (nlin.CD), Nonlinear Sciences - Chaotic Dynamics, Adaptation and Self-Organizing Systems (nlin.AO), Nonlinear Sciences - Adaptation and Self-Organizing Systems

Abstract

In this letter we explore how recurrence quantifier, the determinism ($\Delta$), can reveal stationarity breaking and coupling between physical systems. We demonstrate that it is possible to detect small variations in a dynamical system based only on temporal signal displayed by another system coupled to it. To introduce basic ideas, we consider a well known dynamical system composed of two master-slave coupled Lorenz oscillators. We start evidencing that due to the sensitivity of $\Delta$ computed from temporal time series of slave oscillator, its is possible to detect the stationary breaking imposed in the master oscillator. As a second example, the method is carried out in a real physiological data acquired from accelerometer sensors ($\mathrm{A_{cc}}$) and used to detect micro arousal phenomenology (described by a sharp burst in $\mathrm{A_{cc}}$ signal) during sleep periods in mice. Moreover, we show for the first time that making use of recurrence quantifier it is possible to infer a coupling between electric signals from hippocampus and "locomotor brain areas" of mice, based only on non invasive data from $\mathrm{A_{cc}}$. Our results suggest new possibilities of analysis of coupled systems making use of accessible time series. Our second example supports an interpretation of an internal coupling detectable as a stationarity breaking in $\mathrm{A_{cc}}$ that occurs some seconds before micro arousal processes during sleep periods in rodents, contributing to the idea that micro arousals are elements of sleep taking part in the regulation of sleep process. Such a characterization of micro arousals can improve our knowledge about sleep fostering tools of sleep diagnose and pharmacology research for mammals in general., Comment: After the review process, the authors do not agree that the paper should be submitted to the arXv. So no future version of the text will be uploaded

Published

2016

3. Universality and the collapse of multifractality in Barkhausen avalanches

Author

Lima, Gustavo Zampier dos Santos, Corso, Gilberto, Corrêa, Marcio Assolin, Sommer, Rubem Luis, Ivanov, Plamen Ch., and Bohn, Felipe

Subjects

Statistical Mechanics (cond-mat.stat-mech), FOS: Physical sciences, Disordered Systems and Neural Networks (cond-mat.dis-nn), Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter::Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

Barkhausen effect in ferromagnetic materials provides an excellent area for investigating scaling phenomena found in disordered systems exhibiting crackling noise. The critical dynamics is characterized by random pulses or avalanches with scale-invariant properties, power-law distributions, and universal features. However, the traditional Barkhausen avalanches statistics may not be sufficient to fully characterize the complex temporal correlation of the magnetic domain walls dynamics. Here we go beyond power laws and focus on the multifractal scenario to quantify the temporal scaling characteristics of Barkhausen avalanches in polycrystalline and amorphous ferromagnetic films with thicknesses from $50$ nm to $1000$ nm. We show that the multifractal properties are dependent on the film thickness, and insensitive to the structural character of the materials. Further, we observe for the first time the collapse of the multifractality in the domain walls dynamics as the thickness is reduced, and the multifractal behavior gives place to a monofractal one over the entire range of time scales. The reorganization in the temporal scaling characteristics of Barkhausen avalanches is understood as an universal restructuring associated to the dimensional transition, from three to two-dimensional magnetization dynamics., Comment: 3 figures

Published

2016

4. Parametric frequency tuning of phase-locked nano-electromechanical resonators

Author

Kraus, Andreas, Erbe, Artur, Corso, Gilberto, Richter, Klaus, and Blick, Robert H.

Subjects

Hardware_GENERAL, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, 530 Physik

Abstract

We present measurements on nanoelectromechanical systems fabricated in semiconductor materials suited for operating frequencies in the radio band. We demonstrate how to achieve parametric frequency tuning of nanoelectromechanical resonators required for radio frequency sensor and communication applications.

Published

2001