Novel Approach for EEG Signal Analysis in a Multifractal Paradigm of Motions. Epileptic and Eclamptic Seizures as Scale Transitions

Irimiciuc, Ștefan Andrei; Zală, Andrei; Dimitriu, Dan Gheorghe; Himiniuc, Loredana; Agop, Maricel; Toma, Bogdan Florin; Gavril, Laura; Vasincu, Decebal; Eva, Lucian

doi:10.3390/sym13061024

Cited by 3 publications

(1 citation statement)

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“…Network variability may be seen through time series estimations using methods for analysing complex and intricate networks such as the human brain. As a result, a collection of invariant measures derived from EEG data must represent the neuronal prospects in the brain that generates the signals [2][3][4][5]. EEGs are established as observations of electrical activity in the brain acquired from the surface of the scalp.…”

Section: Introductionmentioning

confidence: 99%

EEG-Based Anamoly Detection for Autistic Kids – A Pilot Study

Radhakrishnan¹,

Boruah²,

Ramamurthy³

2022

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An electroencephalogram (EEG) test can be utilized to capture the electrical impulses in the human brain. EEG signal analysis is crucial in the detection and treatment of brain diseases. Autism is one of the neurological disorders that needs to be diagnosed in the early stages of life. Autistic behavior is difficult to differentiate and it can even lead to adverse effects in the daily routine of a kid. Recent advances in Artificial Intelligence have proven to be an effective way of diagnosing ASD. This research employs PyCaret framework to analyze the anomalies present in the EEG signal data in the context of differentiating Autistic children from Typically developing children. The different anomaly detection modules have been used to detect anomalies, compute their anomaly scores and visualize it. The goal of this study is to determine if PyCaret's anomaly detection module can aid the detection of ASD.

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Section: Introductionmentioning

confidence: 99%

EEG-Based Anamoly Detection for Autistic Kids – A Pilot Study

Radhakrishnan¹,

Boruah²,

Ramamurthy³

2022

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In-phase matrix profile: A novel method for the detection of major depressive disorder

Uudeberg,

Belikov,

Päeske

et al. 2024

Biomedical Signal Processing and Control

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Identification of topological measures of visibility graphs for analyzing transitions in complex time series

Tiwari

Wong

2022

Int. J. Mod. Phys. B

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In this paper, we investigate signatures of variation in the behavior of correlated time series by analyzing changes in the topological properties of the corresponding visibility graph. Variations in six different network measures: assortativity, average path length, clustering, transitivity, density, and the average of the mean link length, are explored. We construct visibility graphs from the original and the magnitude and sign of its increment series. Both the horizontal and the natural visibility graphs are studied. Through extensive numerical studies on the time series of fractional Brownian motion (fBm), we first identify network measures that can reflect the changes in correlations in the time series. The efficacy of these markers is examined to identify the transitions in two systems, a two-dimensional (2D) Ising spin system and EEG data with seizures. While all the identified network measures capture the change in the thermal equilibrium correlations for the Ising spin system, they have limited success in the case of the time-dependent fluctuations in the EEG data. We identify some markers relevant to detecting seizures in the EEG data set.

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Novel Approach for EEG Signal Analysis in a Multifractal Paradigm of Motions. Epileptic and Eclamptic Seizures as Scale Transitions

Cited by 3 publications

References 35 publications

EEG-Based Anamoly Detection for Autistic Kids – A Pilot Study

EEG-Based Anamoly Detection for Autistic Kids – A Pilot Study

In-phase matrix profile: A novel method for the detection of major depressive disorder

Identification of topological measures of visibility graphs for analyzing transitions in complex time series

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