Noise Estimation in Electroencephalogram Signal by Using Volterra Series Coefficients

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Abstract

The Volterra model is widely used for nonlinearity identification in practical applications. In this paper, we employed Volterra model to find the nonlinearity relation between electroencephalogram (EEG) signal and the noise that is a novel approach to estimate noise in EEG signal. We show that by employing this method. We can considerably improve the signal to noise ratio by the ratio of at least 1.54. An important issue in implementing Volterra model is its computation complexity, especially when the degree of nonlinearity is increased. Hence, in many applications it is urgent to reduce the complexity of computation. In this paper, we use the property of EEG signal and propose a new and good approximation of delayed input signal to its adjacent samples in order to reduce the computation of finding Volterra series coefficients. The computation complexity is reduced by the ratio of at least 1/3 when the filter memory is 3.

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An efficient P300-based brain-computer interface for disabled subjects.

Karin Diserens, Jean-Marc Vesin, Ulrich Hoffmann … (2008)

A brain-computer interface (BCI) is a communication system that translates brain-activity into commands for a computer or other devices. In other words, a BCI allows users to act on their environment by using only brain-activity, without using peripheral nerves and muscles. In this paper, we present a BCI that achieves high classification accuracy and high bitrates for both disabled and able-bodied subjects. The system is based on the P300 evoked potential and is tested with five severely disabled and four able-bodied subjects. For four of the disabled subjects classification accuracies of 100% are obtained. The bitrates obtained for the disabled subjects range between 10 and 25bits/min. The effect of different electrode configurations and machine learning algorithms on classification accuracy is tested. Further factors that are possibly important for obtaining good classification accuracy in P300-based BCI systems for disabled subjects are discussed.

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Blind noise reduction for multisensory signals using ICA and subspace filtering, with application to EEG analysis.

Sergiy Vorobyov, Andrzej Cichocki (2002)

In many applications of signal processing, especially in communications and biomedicine, preprocessing is necessary to remove noise from data recorded by multiple sensors. Typically, each sensor or electrode measures the noisy mixture of original source signals. In this paper a noise reduction technique using independent component analysis (ICA) and subspace filtering is presented. In this approach we apply subspace filtering not to the observed raw data but to a demixed version of these data obtained by ICA. Finite impulse response filters are employed whose vectors are parameters estimated based on signal subspace extraction. ICA allows us to filter independent components. After the noise is removed we reconstruct the enhanced independent components to obtain clean original signals; i.e., we project the data to sensor level. Simulations as well as real application results for EEG-signal noise elimination are included to show the validity and effectiveness of the proposed approach.

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Adaptation of a memoryless preprocessor for nonlinear acoustic echo cancelling

Alexander Stenger, Walter Kellermann (2000)

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Author and article information

Journal

Journal ID (nlm-ta): J Med Signals Sens

Journal ID (publisher-id): JMSS

Title: Journal of Medical Signals and Sensors

Publisher: Medknow Publications & Media Pvt Ltd (India )

ISSN (Print): 2228-7477

ISSN (Electronic): 2228-7477

Publication date (Print): Jul-Sep 2015

Volume: 5

Issue: 3

Pages: 192-200

Affiliations

[1] Department of Electronic Engineering, Faculty of Electrical and Computer Engineering, Babol University of Technology, Babol, Iran

Author notes

Address for correspondence: Mrs. Malihe Hassani, Department of Electronic Engineering, Faculty of Electrical and Computer Engineering, Babol University of Tecknology, Babol, Iran. E-mail: Mhassani@ 123456nit.ac.ir

Article

Publisher ID: JMSS-5-192

DOI: 10.4103/2228-7477.161495

PMC ID: 4528358

SO-VID: ff22374e-5f42-4775-a876-331a14665ffa

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution-Noncommercial-Share Alike 3.0 Unported, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Noise Estimation in Electroencephalogram Signal by Using Volterra Series Coefficients

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Probing cerebral hemodynamics with BOLD fMRI

Most cited references 40

An efficient P300-based brain-computer interface for disabled subjects.

Blind noise reduction for multisensory signals using ICA and subspace filtering, with application to EEG analysis.

Adaptation of a memoryless preprocessor for nonlinear acoustic echo cancelling

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