EEG Mental Stress Assessment Using Hybrid Multi-Domain Feature Sets of Functional Connectivity Network and Time-Frequency Features

Hag, Ala Ahmed Yahya; Handayani, Dini; Pillai, Thulasyammal Ramiah; Mantoro, Teddy; Mun, Hou Kit; Al-Shargie, Fares

doi:10.3390/s21186300

Cited by 16 publications

(8 citation statements)

References 66 publications

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“…By averaging over the trial set, the proposed measures could also be used as a solution to improve the prediction results of the phases of the synchronization and desynchronization tasks [34]. The potential application of CPCC also lies in the assessment of mental stress levels using functional connectivity as a parameter [35,36] and in the diagnosis dyslexia [37]. In addition, the proposed measures could be used as parameters for the evaluation of simulated EEG data based on the theory of functional connectivity of the brain [38].…”

Section: Discussionmentioning

confidence: 99%

Complex Pearson Correlation Coefficient for EEG Connectivity Analysis

Šverko

Vrankić

Vlahinić

et al. 2022

Sensors

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In the background of all human thinking—acting and reacting are sets of connections between different neurons or groups of neurons. We studied and evaluated these connections using electroencephalography (EEG) brain signals. In this paper, we propose the use of the complex Pearson correlation coefficient (CPCC), which provides information on connectivity with and without consideration of the volume conduction effect. Although the Pearson correlation coefficient is a widely accepted measure of the statistical relationships between random variables and the relationships between signals, it is not being used for EEG data analysis. Its meaning for EEG is not straightforward and rarely well understood. In this work, we compare it to the most commonly used undirected connectivity analysis methods, which are phase locking value (PLV) and weighted phase lag index (wPLI). First, the relationship between the measures is shown analytically. Then, it is illustrated by a practical comparison using synthetic and real EEG data. The relationships between the observed connectivity measures are described in terms of the correlation values between them, which are, for the absolute values of CPCC and PLV, not lower that 0.97, and for the imaginary component of CPCC and wPLI—not lower than 0.92, for all observed frequency bands. Results show that the CPCC includes information of both other measures balanced in a single complex-numbered index.

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Section: Discussionmentioning

confidence: 99%

Complex Pearson Correlation Coefficient for EEG Connectivity Analysis

Šverko

Vrankić

Vlahinić

et al. 2022

Sensors

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“…In our study, we utilize the most important features from multiple domains, seeking better informative features for stress detection. As a result, a fusion of multi-domain features showed a promising result in different fields as there could be multi-way interactions among features [14,60]. The drawback of multi-domain features is that they are vulnerable to redundant and unrelated features.…”

Section: Discussionmentioning

confidence: 99%

“…Current research studies employed EEG to acquire brain activities because it is reliable, affordable, portable, and provides high temporal resolution of the brain signals [7,8]. In multi-channel EEG, several features from the time domain, frequency domain, time-frequency domain, spatial domain, etc., contribute to the high dimensional feature space in which one aims to recognize or assess several brain states such as seizure detection (epilepsy) [9], motor imaginary [10], depression [11], emotion detection [12,13], and mental stress recognition [14]. Recently, EEG signals have been used extensively in the field of emotion recognition, particularly in the recognition of distress due to its harmful influence on physical and mental health [15,16].…”

Section: Introductionmentioning

confidence: 99%

Enhancing EEG-Based Mental Stress State Recognition using an Improved Hybrid Feature Selection Algorithm

Hag¹,

Handayani²,

Altalhi³

et al. 2021

Preprint

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Mental stress state recognition using electroencephalogram (EEG) signals for real-life applications needs a conventional wearable device. This requires an efficient number of EEG channels and an optimal feature set. The main objective of the study is to identify an optimal feature subset that can best discriminate mental stress states while enhancing the overall performance. Thus, multi-domain feature extraction methods were employed, namely, time domain, frequency domain, time-frequency domain, and network connectivity features, to form a large feature vector space. To avoid the computational complexity of high dimensional space, a hybrid feature selection (FS) method of minimum Redundancy Maximum Relevance with Particle Swarm Optimization and Support Vector Machine (mRMR-PSO-SVM) is proposed to remove noise, redundant, and irrelevant features and keep the optimal feature subset. The performance of the proposed method is evaluated and verified using four datasets, namely EDMSS, DEAP, SEED, and EDPMSC. To further consolidate, the effectiveness of the proposed method is compared with that of the state-of-the-art heuristic methods. The proposed model has significantly reduced the features vector space by an average of 70% in comparison to the state-of-the-art methods while significantly increasing overall detection performance.

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“…Our study utilizes the most important features from multiple domains, seeking better informative features for stress detection. As a result, a fusion of multi-domain features showed a promising result in different fields as there could be multi-way interactions among features [14,67]. The drawback of multi-domain features is that they are vulnerable to redundant and unrelated features.…”

Section: Discussionmentioning

confidence: 99%

“…Current research studies employed EEG to acquire brain activities because it is reliable, affordable, portable, and provides high temporal resolution of the brain signals' activities [8]. In multichannel EEG, several features extracted from the time domain, frequency domain, time-frequency domain, spatial domain, etc., contribute to form a high dimensional feature space in which one aims to recognize or assess several brain states such as seizure detection (epilepsy) [9], motor imaginary [10], depression [11], emotion detection [12,13], and mental stress recognition [14]. Thus, many feature extraction methods (in the time, frequency, and time-frequency domains) have been employed to extract meaningful information from an EEG signal associated with a mental task.…”

Section: Introductionmentioning

confidence: 99%

Enhancing EEG-Based Mental Stress State Recognition Using an Improved Hybrid Feature Selection Algorithm

Hag

Handayani

Altalhi

et al. 2021

Sensors

Self Cite

View full text Add to dashboard Cite

In real-life applications, electroencephalogram (EEG) signals for mental stress recognition require a conventional wearable device. This, in turn, requires an efficient number of EEG channels and an optimal feature set. This study aims to identify an optimal feature subset that can discriminate mental stress states while enhancing the overall classification performance. We extracted multi-domain features within the time domain, frequency domain, time-frequency domain, and network connectivity features to form a prominent feature vector space for stress. We then proposed a hybrid feature selection (FS) method using minimum redundancy maximum relevance with particle swarm optimization and support vector machines (mRMR-PSO-SVM) to select the optimal feature subset. The performance of the proposed method is evaluated and verified using four datasets, namely EDMSS, DEAP, SEED, and EDPMSC. To further consolidate, the effectiveness of the proposed method is compared with that of the state-of-the-art metaheuristic methods. The proposed model significantly reduced the features vector space by an average of 70% compared with the state-of-the-art methods while significantly increasing overall detection performance.

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EEG Mental Stress Assessment Using Hybrid Multi-Domain Feature Sets of Functional Connectivity Network and Time-Frequency Features

Cited by 16 publications

References 66 publications

Complex Pearson Correlation Coefficient for EEG Connectivity Analysis

Complex Pearson Correlation Coefficient for EEG Connectivity Analysis

Enhancing EEG-Based Mental Stress State Recognition using an Improved Hybrid Feature Selection Algorithm

Enhancing EEG-Based Mental Stress State Recognition Using an Improved Hybrid Feature Selection Algorithm

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