Applying nonlinear measures to the brain rhythms: an effective method for epilepsy diagnosis

Abstract Background Epilepsy is a neurological disorder from which almost 50 million people have been suffering. These statistics indicate the importance of epilepsy diagnosis. Electroencephalogram (EEG) signals analysis is one of the most common methods for epilepsy characterization; hence, various strategies were applied to classify epileptic EEGs. Methods In this paper, four different nonlinear features such as Fractal dimensions including Higuchi method (HFD) and Katz method (KFD), Hurst exponent, and L-Z complexity measure were extracted from EEGs and their frequency sub-bands. The features were ranked later by implementing Relieff algorithm. The ranked features were applied sequentially to three different classifiers (MLPNN, Linear SVM, and RBF SVM). Results According to the dataset used for this study, there are five classification problems named ABCD/E, AB/CD/E, A/D/E, A/E, and D/E. In all cases, MLPNN was the most accurate classifier. Its performances for mentioned classification problems were 99.91%, 98.19%, 98.5%, 100% and 99.84%, respectively. Conclusion The results demonstrate that KFD is the highest-ranking feature; In addition, beta and theta sub-bands are the most important frequency bands because, for all cases, the top features were KFDs extracted from beta and theta sub-bands. Moreover, high levels of accuracy have been obtained just by using these two features which reduce the complexity of the classification.

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Time-ResNeXt for epilepsy recognition based on EEG signals in wireless networks

EURASIP Journal on Wireless Communications and Networking ◽

10.1186/s13638-020-01810-5 ◽

2020 ◽

Vol 2020 (1) ◽

Cited By ~ 1

Author(s):

Shaoqiang Wang ◽

Shudong Wang ◽

Song Zhang ◽

Yifan Wang

Keyword(s):

Deep Learning ◽

Network Structure ◽

Signal Recognition ◽

Eeg Signals ◽

Real World Data ◽

Data Set ◽

Practical Applications ◽

Epilepsy Diagnosis ◽

Single Data ◽

Electroencephalogram Eeg

Abstract To automatically detect dynamic EEG signals to reduce the time cost of epilepsy diagnosis. In the signal recognition of electroencephalogram (EEG) of epilepsy, traditional machine learning and statistical methods require manual feature labeling engineering in order to show excellent results on a single data set. And the artificially selected features may carry a bias, and cannot guarantee the validity and expansibility in real-world data. In practical applications, deep learning methods can release people from feature engineering to a certain extent. As long as the focus is on the expansion of data quality and quantity, the algorithm model can learn automatically to get better improvements. In addition, the deep learning method can also extract many features that are difficult for humans to perceive, thereby making the algorithm more robust. Based on the design idea of ResNeXt deep neural network, this paper designs a Time-ResNeXt network structure suitable for time series EEG epilepsy detection to identify EEG signals. The accuracy rate of Time-ResNeXt in the detection of EEG epilepsy can reach 91.50%. The Time-ResNeXt network structure produces extremely advanced performance on the benchmark dataset (Berne-Barcelona dataset) and has great potential for improving clinical practice.

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Information-based analysis of the coupling between brain and heart reactions to olfactory stimulation

Technology and Health Care ◽

10.3233/thc-213136 ◽

2021 ◽

pp. 1-11

Author(s):

Najmeh Pakniyat ◽

Mohammad Hossein Babini ◽

Vladimir V. Kulish ◽

Hamidreza Namazi

Keyword(s):

Time Series ◽

Biomedical Science ◽

Strongly Correlated ◽

Eeg Signals ◽

Ecg Signals ◽

Olfactory Stimuli ◽

Electrocardiogram Ecg ◽

First Time ◽

Electroencephalogram Eeg ◽

The Brain

BACKGROUND: Analysis of the heart activity is one of the important areas of research in biomedical science and engineering. For this purpose, scientists analyze the activity of the heart in various conditions. Since the brain controls the heart’s activity, a relationship should exist among their activities. OBJECTIVE: In this research, for the first time the coupling between heart and brain activities was analyzed by information-based analysis. METHODS: Considering Shannon entropy as the indicator of the information of a system, we recorded electroencephalogram (EEG) and electrocardiogram (ECG) signals of 13 participants (7 M, 6 F, 18–22 years old) in different external stimulations (using pineapple, banana, vanilla, and lemon flavors as olfactory stimuli) and evaluated how the information of EEG signals and R-R time series (as heart rate variability (HRV)) are linked. RESULTS: The results indicate that the changes in the information of the R-R time series and EEG signals are strongly correlated (ρ=-0.9566). CONCLUSION: We conclude that heart and brain activities are related.

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Context-Based Filtering for Assisted Brain-Actuated Wheelchair Driving

Computational Intelligence and Neuroscience ◽

10.1155/2007/25130 ◽

2007 ◽

Vol 2007 ◽

pp. 1-12 ◽

Cited By ~ 72

Author(s):

Gerolf Vanacker ◽

José del R. Millán ◽

Eileen Lew ◽

Pierre W. Ferrez ◽

Ferran Galán Moles ◽

...

Keyword(s):

Control System ◽

Shared Control ◽

Eeg Signals ◽

Intelligent Processing ◽

Intelligent Wheelchair ◽

Brain Signals ◽

Brain Interface ◽

The Subject ◽

Electroencephalogram Eeg ◽

The Brain

Controlling a robotic device by using human brain signals is an interesting and challenging task. The device may be complicated to control and the nonstationary nature of the brain signals provides for a rather unstable input. With the use of intelligent processing algorithms adapted to the task at hand, however, the performance can be increased. This paper introduces a shared control system that helps the subject in driving an intelligent wheelchair with a noninvasive brain interface. The subject's steering intentions are estimated from electroencephalogram (EEG) signals and passed through to the shared control system before being sent to the wheelchair motors. Experimental results show a possibility for significant improvement in the overall driving performance when using the shared control system compared to driving without it. These results have been obtained with 2 healthy subjects during their first day of training with the brain-actuated wheelchair.

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Alternative Form of Ordinary Differential Equation of Electroencephalography Signals During an Epileptic Seizure

Malaysian Journal of Fundamental and Applied Sciences ◽

10.11113/mjfas.v17n2.1976 ◽

2021 ◽

Vol 17 (2) ◽

pp. 109-113

Author(s):

Ameen Omar Barja

Keyword(s):

Differential Equation ◽

Ordinary Differential Equation ◽

Epileptic Seizure ◽

Essential Role ◽

Clinical Neurophysiology ◽

Alternative Form ◽

Eeg Signals ◽

Seizure Disorders ◽

Electroencephalogram Eeg ◽

The Brain

One of the most important fields in clinical neurophysiology is an electroencephalogram (EEG). It is a test used to detect problems related to the brain electrical activity, and it can track and records patterns of brain waves. EEG continues to play an essential role in diagnosis and management of patients with epileptic seizure disorders. Nevertheless, the outcome of EEG as a tool for evaluating epileptic seizure is often interpreted as a noise rather than an ordered pattern. The mathematical modelling of EEG signals provides valuable data to neurologists, and is heavily utilized in the diagnosis and treatment of epilepsy. EEG signals during the seizure can be modeled as ordinary differential equation (ODE). In this study we will present an alternative form of ODE of EEG signals through the seizure.

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Cognitive Analytics for Rapid Stress Relief in Humans Using EEG Based Analysis of Tratak Sadhana (Meditation)

International Journal of Information Retrieval Research ◽

10.4018/ijirr.2020100101 ◽

2020 ◽

Vol 10 (4) ◽

pp. 1-20

Author(s):

Swati Kamthekar ◽

Prachi Deshpande ◽

Brijesh Iyer

Keyword(s):

Big Data ◽

Fractal Dimensions ◽

Approximate Entropy ◽

Stress Relief ◽

Eeg Signals ◽

Nonlinear Parameters ◽

Wavelet Entropy ◽

Rest State ◽

Eyes Closed ◽

The Brain

The article reports the effect of Tratak Sadhana (meditation) on humans using electroencephalograph (EEG) signals. EEG represents the brain activities in the form of electrical signals. Due to non-stationary nature of the EEG signals, nonlinear parameters like approximate entropy, wavelet entropy and Higuchi' fractal dimensions are used to assess the variations in EEG rest as well as during Tratak Sadhana, i.e. at a rest state with eyes closed and during Tratak meditation. EEG signals are captured using EPOC Emotive EEG sensor. The sensor has 14 electrodes covering human scalp. Results shows that new practitioners can also achieve a rapid meditative state as compared to other meditation techniques. Further, the Big Data perspective of the present study is discussed. The present study shows that Tratak Sadhana meditation is an effective tool for rapid stress relief in humans.

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Comparison of Baseline Cepstral Vector and Composite Vectors in the Automatic Seizure Detection Using Probabilistic Neural Networks

ISRN Biomedical Engineering ◽

10.1155/2013/984864 ◽

2013 ◽

Vol 2013 ◽

pp. 1-9 ◽

Cited By ~ 2

Author(s):

Chandrakar Kamath

Keyword(s):

Probabilistic Neural Network ◽

Epileptic Seizures ◽

Seizure Detection ◽

Classification Problems ◽

Dynamic Features ◽

Cepstral Coefficients ◽

Eeg Recordings ◽

Frequency Changes ◽

Electroencephalogram Eeg ◽

The Brain

Epileptic seizures are abnormal sudden discharges in the brain with signatures manifesting in the electroencephalogram (EEG) recordings by frequency changes and increased amplitudes. These changes, in this work, are captured through traditional cepstrum and the cepstrum-derived dynamic features. We compared the performance of the traditional baseline cepstral vector with that of the two composite vectors, the first including velocity cepstral coefficients and the second including velocity and acceleration cepstral coefficients, using probabilistic neural network in general epileptic seizure detection. The comparison is tried on seven different classification problems which encompass all the possible discriminations in the medical field related to epilepsy. In this study, it is found that the overall performance of both the composite vectors deteriorates compared to that of baseline cepstral vector.

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Application of Convolutional Neural Network Method in Brain Computer Interface

Journal of Physics Conference Series ◽

10.1088/1742-6596/2078/1/012044 ◽

2021 ◽

Vol 2078 (1) ◽

pp. 012044

Author(s):

Lingzhi Chen ◽

Wei Deng ◽

Chunjin Ji

Keyword(s):

Pattern Recognition ◽

Recognition Accuracy ◽

Brain Computer Interface ◽

Computer Interface ◽

Eeg Signals ◽

Network Method ◽

Electroencephalogram Eeg ◽

The Brain ◽

Bci System

Abstract Pattern Recognition is the most important part of the brain computer interface (BCI) system. More and more profound learning methods were applied in BCI to increase the overall quality of pattern recognition accuracy, especially in the BCI based on Electroencephalogram (EEG) signal. Convolutional Neural Networks (CNN) holds great promises, which has been extensively employed for feature classification in BCI. This paper will review the application of the CNN method in BCI based on various EEG signals.

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Investigating EEG Signals of Autistic Individuals Using Detrended Fluctuation Analysis

Traitement du signal ◽

10.18280/ts.380528 ◽

2021 ◽

Vol 38 (5) ◽

pp. 1515-1520

Author(s):

Menaka Radhakrishnan ◽

Karthik Ramamurthy ◽

Avantika Kothandaraman ◽

Gauri Madaan ◽

Harini Machavaram

Keyword(s):

Detrended Fluctuation Analysis ◽

Autism Spectrum ◽

Brain Diseases ◽

Fluctuation Analysis ◽

Typically Developing ◽

Eeg Signals ◽

Self Similarity ◽

Detrended Fluctuation ◽

Electroencephalogram Eeg ◽

The Brain

To record all electrical activity of the human brain, an electroencephalogram (EEG) test using electrodes attached to the scalp is conducted. Analysis of EEG signals plays an important role in the diagnosis and treatment of brain diseases in the biomedical field. One of the brain diseases found in early ages include autism. Autistic behaviours are hard to distinguish, varying from mild impairments, to intensive interruption in daily life. The non-linear EEG signals arising from various lobes of the brain have been studied with the help of a robust technique called Detrended Fluctuation Analysis (DFA). Here, we study the EEG signals of Typically Developing (TD) and children with Autism Spectrum Disorder (ASD) using DFA. The Hurst exponents, which are the outputs of DFA, are used to find out the strength of self-similarity in the signals. Our analysis works towards analysing if DFA can be a helpful analysis for the early detection of ASD.

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INFORMATION AND MEMORY-BASED ANALYSIS FOR DECODING OF THE HUMAN LEARNING BETWEEN NORMAL AND VIRTUAL REALITY (VR) CONDITIONS

Fractals ◽

10.1142/s0218348x21501632 ◽

2021 ◽

Vol 29 (03) ◽

pp. 2150163

Author(s):

HAMIDREZA NAMAZI ◽

MOHAMMAD HOSSEIN BABINI ◽

KAMIL KUCA ◽

ONDREJ KREJCAR

Keyword(s):

Virtual Reality ◽

Shannon Entropy ◽

Mathematical Analysis ◽

Strong Correlation ◽

Hurst Exponent ◽

Human Learning ◽

Learning Ability ◽

Eeg Signals ◽

2D And 3D ◽

Electroencephalogram Eeg

In this paper, we investigated the learning ability of students in normal versus virtual reality (VR) watching of videos by mathematical analysis of electroencephalogram (EEG) signals. We played six videos in the 2D and 3D modes for nine subjects and calculated the Shannon entropy of recorded EEG signals to investigate how much their embedded information changes between these modes. We also calculated the Hurst exponent of EEG signals to compare the changes in the memory of signals. The analysis results showed that watching the videos in a VR condition causes greater information and memory in EEG signals. A strong correlation was obtained between the increment of information and memory of EEG signals. These increments also have been verified based on the answers that subjects gave to the questions about the content of videos. Therefore, we can say that when subjects watch a video in a VR condition, more information is transferred to their brains that cause increments in their memory.

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Electroencephalogram of Happy Emotional Cognition Based on Complex System of Music and Image Visual and Auditory

Complexity ◽

10.1155/2020/6631400 ◽

2020 ◽

Vol 2020 ◽

pp. 1-14

Author(s):

Lin Gan ◽

Mu Zhang ◽

Jiajia Jiang ◽

Fajie Duan

Keyword(s):

Complex System ◽

Cognitive Neuroscience ◽

Auditory Stimulation ◽

External Information ◽

Eeg Signals ◽

Baseline Drift ◽

Average Accuracy ◽

Eeg Data ◽

Electroencephalogram Eeg ◽

The Brain

People are ingesting various information from different sense organs all the time to complete different cognitive tasks. The brain integrates and regulates this information. The two significant sensory channels for receiving external information are sight and hearing that have received extensive attention. This paper mainly studies the effect of music and visual-auditory stimulation on electroencephalogram (EEG) of happy emotion recognition based on a complex system. In the experiment, the presentation was used to prepare the experimental stimulation program, and the cognitive neuroscience experimental paradigm of EEG evoked by happy emotion pictures was established. Using 93 videos as natural stimuli, fMRI data were collected. Finally, the collected EEG signals were removed with the eye artifact and baseline drift, and the t-test was used to analyze the significant differences of different lead EEG data. Experimental data shows that, by adjusting the parameters of the convolutional neural network, the highest accuracy of the two-classification algorithm can reach 98.8%, and the average accuracy can reach 83.45%. The results show that the brain source under the combined visual and auditory stimulus is not a simple superposition of the brain source of the single visual and auditory stimulation, but a new interactive source is generated.

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