epat toolbox Search Results


epat toolbox  (MathWorks Inc)
90
MathWorks Inc epat toolbox
Illustrates the fundamental workflow and principal algorithms involved in the <t>EPAT</t> <t>toolbox</t> analysis. Comprising four main parts, it begins with the data input stage, supporting the import of various EEG file formats. The preprocessing module encompasses parameter settings, the execution of batch preprocessing scripts, and detailed processes like ‘Process EEG One by One’ and ‘Epoch ERP One by One’. The data analysis and processing phase includes ERP analysis, EEG power spectrum analysis, connectivity analysis, and time-frequency analysis. Finally, the toolbox offers a user-friendly interactive interface, alongside a suite of visualization tools for data representation. (EEG, electroencephalography; ERP, event-related potentials; ICA, independent component analysis; PCA, principal component analysis; ICs, independent components).
Epat Toolbox, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/epat toolbox/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
epat toolbox - by Bioz Stars, 2026-04
90/100 stars
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matlab toolbox epat  (MathWorks Inc)
90
MathWorks Inc matlab toolbox epat
Illustrates the fundamental workflow and principal algorithms involved in the <t>EPAT</t> toolbox analysis. Comprising four main parts, it begins with the data input stage, supporting the import of various EEG file formats. The preprocessing module encompasses parameter settings, the execution of batch preprocessing scripts, and detailed processes like ‘Process EEG One by One’ and ‘Epoch ERP One by One’. The data analysis and processing phase includes ERP analysis, EEG power spectrum analysis, connectivity analysis, and time-frequency analysis. Finally, the toolbox offers a user-friendly interactive interface, alongside a suite of visualization tools for data representation. (EEG, electroencephalography; ERP, event-related potentials; ICA, independent component analysis; PCA, principal component analysis; ICs, independent components).
Matlab Toolbox Epat, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/matlab toolbox epat/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
matlab toolbox epat - by Bioz Stars, 2026-04
90/100 stars
  Buy from Supplier
simulink epas model  (MathWorks Inc)
90
MathWorks Inc simulink epas model
Illustrates the fundamental workflow and principal algorithms involved in the <t>EPAT</t> toolbox analysis. Comprising four main parts, it begins with the data input stage, supporting the import of various EEG file formats. The preprocessing module encompasses parameter settings, the execution of batch preprocessing scripts, and detailed processes like ‘Process EEG One by One’ and ‘Epoch ERP One by One’. The data analysis and processing phase includes ERP analysis, EEG power spectrum analysis, connectivity analysis, and time-frequency analysis. Finally, the toolbox offers a user-friendly interactive interface, alongside a suite of visualization tools for data representation. (EEG, electroencephalography; ERP, event-related potentials; ICA, independent component analysis; PCA, principal component analysis; ICs, independent components).
Simulink Epas Model, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/simulink epas model/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
simulink epas model - by Bioz Stars, 2026-04
90/100 stars
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matlab-based epa otm 33a point source gaussian emission quantification  (MathWorks Inc)
90
MathWorks Inc matlab-based epa otm 33a point source gaussian emission quantification
Illustrates the fundamental workflow and principal algorithms involved in the <t>EPAT</t> toolbox analysis. Comprising four main parts, it begins with the data input stage, supporting the import of various EEG file formats. The preprocessing module encompasses parameter settings, the execution of batch preprocessing scripts, and detailed processes like ‘Process EEG One by One’ and ‘Epoch ERP One by One’. The data analysis and processing phase includes ERP analysis, EEG power spectrum analysis, connectivity analysis, and time-frequency analysis. Finally, the toolbox offers a user-friendly interactive interface, alongside a suite of visualization tools for data representation. (EEG, electroencephalography; ERP, event-related potentials; ICA, independent component analysis; PCA, principal component analysis; ICs, independent components).
Matlab Based Epa Otm 33a Point Source Gaussian Emission Quantification, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/matlab-based epa otm 33a point source gaussian emission quantification/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
matlab-based epa otm 33a point source gaussian emission quantification - by Bioz Stars, 2026-04
90/100 stars
  Buy from Supplier
matlab software  (MathWorks Inc)
90
MathWorks Inc matlab software
Illustrates the fundamental workflow and principal algorithms involved in the <t>EPAT</t> toolbox analysis. Comprising four main parts, it begins with the data input stage, supporting the import of various EEG file formats. The preprocessing module encompasses parameter settings, the execution of batch preprocessing scripts, and detailed processes like ‘Process EEG One by One’ and ‘Epoch ERP One by One’. The data analysis and processing phase includes ERP analysis, EEG power spectrum analysis, connectivity analysis, and time-frequency analysis. Finally, the toolbox offers a user-friendly interactive interface, alongside a suite of visualization tools for data representation. (EEG, electroencephalography; ERP, event-related potentials; ICA, independent component analysis; PCA, principal component analysis; ICs, independent components).
Matlab Software, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/matlab software/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
matlab software - by Bioz Stars, 2026-04
90/100 stars
  Buy from Supplier

Image Search Results


Illustrates the fundamental workflow and principal algorithms involved in the EPAT toolbox analysis. Comprising four main parts, it begins with the data input stage, supporting the import of various EEG file formats. The preprocessing module encompasses parameter settings, the execution of batch preprocessing scripts, and detailed processes like ‘Process EEG One by One’ and ‘Epoch ERP One by One’. The data analysis and processing phase includes ERP analysis, EEG power spectrum analysis, connectivity analysis, and time-frequency analysis. Finally, the toolbox offers a user-friendly interactive interface, alongside a suite of visualization tools for data representation. (EEG, electroencephalography; ERP, event-related potentials; ICA, independent component analysis; PCA, principal component analysis; ICs, independent components).

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Illustrates the fundamental workflow and principal algorithms involved in the EPAT toolbox analysis. Comprising four main parts, it begins with the data input stage, supporting the import of various EEG file formats. The preprocessing module encompasses parameter settings, the execution of batch preprocessing scripts, and detailed processes like ‘Process EEG One by One’ and ‘Epoch ERP One by One’. The data analysis and processing phase includes ERP analysis, EEG power spectrum analysis, connectivity analysis, and time-frequency analysis. Finally, the toolbox offers a user-friendly interactive interface, alongside a suite of visualization tools for data representation. (EEG, electroencephalography; ERP, event-related potentials; ICA, independent component analysis; PCA, principal component analysis; ICs, independent components).

Article Snippet: EPAT toolbox runs under the MATLAB programming environment.

Techniques:

Main functionality of EPAT.

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Main functionality of EPAT.

Article Snippet: EPAT toolbox runs under the MATLAB programming environment.

Techniques: Selection

Running the batch preprocess script in EPAT. After clicking “Step 1 Run Batch Preprocess Script” and starting the analysis, four windows appear: 1. The MATLAB command window. 2. EPAT analysis progress. 3. The Pause window. 4. The EEGLAB information pop-up window.

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Running the batch preprocess script in EPAT. After clicking “Step 1 Run Batch Preprocess Script” and starting the analysis, four windows appear: 1. The MATLAB command window. 2. EPAT analysis progress. 3. The Pause window. 4. The EEGLAB information pop-up window.

Article Snippet: EPAT toolbox runs under the MATLAB programming environment.

Techniques:

Performance comparison with existing toolboxes.

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Performance comparison with existing toolboxes.

Article Snippet: EPAT toolbox runs under the MATLAB programming environment.

Techniques: Comparison

Illustrates the fundamental workflow and principal algorithms involved in the EPAT toolbox analysis. Comprising four main parts, it begins with the data input stage, supporting the import of various EEG file formats. The preprocessing module encompasses parameter settings, the execution of batch preprocessing scripts, and detailed processes like ‘Process EEG One by One’ and ‘Epoch ERP One by One’. The data analysis and processing phase includes ERP analysis, EEG power spectrum analysis, connectivity analysis, and time-frequency analysis. Finally, the toolbox offers a user-friendly interactive interface, alongside a suite of visualization tools for data representation. (EEG, electroencephalography; ERP, event-related potentials; ICA, independent component analysis; PCA, principal component analysis; ICs, independent components).

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Illustrates the fundamental workflow and principal algorithms involved in the EPAT toolbox analysis. Comprising four main parts, it begins with the data input stage, supporting the import of various EEG file formats. The preprocessing module encompasses parameter settings, the execution of batch preprocessing scripts, and detailed processes like ‘Process EEG One by One’ and ‘Epoch ERP One by One’. The data analysis and processing phase includes ERP analysis, EEG power spectrum analysis, connectivity analysis, and time-frequency analysis. Finally, the toolbox offers a user-friendly interactive interface, alongside a suite of visualization tools for data representation. (EEG, electroencephalography; ERP, event-related potentials; ICA, independent component analysis; PCA, principal component analysis; ICs, independent components).

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques:

Comparison of EPAT and EEGLAB by 16 participants across 14 dimensions. * Indicates statistically significant differences.

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Comparison of EPAT and EEGLAB by 16 participants across 14 dimensions. * Indicates statistically significant differences.

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques: Comparison

Main functionality of EPAT.

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Main functionality of EPAT.

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques: Selection

Schematic representation of the EPAT GUI and project directory and EEG file preparation. (GUI, graphical user interface; EEG, electroencephalography).

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Schematic representation of the EPAT GUI and project directory and EEG file preparation. (GUI, graphical user interface; EEG, electroencephalography).

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques:

Defining parameters in EPAT. In general, five steps are required to complete the setting of all parameters. DefineParam1: Define data import parameters for a processing project. DefineParam2: Define preprocessing and filtering parameters for EEG data. DefineParam3: Define channel selection and ICA parameters. DefineParam4: Define ERP epoch and time-frequency analysis parameters. DefineParam5: Define ERP events and conditions parameters. After clicking “Next,” a separate new interface will pop up (the previous interface will not disappear). (ICA, independent component analysis; EEG, electroencephalography; ERP, event-related potential).

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Defining parameters in EPAT. In general, five steps are required to complete the setting of all parameters. DefineParam1: Define data import parameters for a processing project. DefineParam2: Define preprocessing and filtering parameters for EEG data. DefineParam3: Define channel selection and ICA parameters. DefineParam4: Define ERP epoch and time-frequency analysis parameters. DefineParam5: Define ERP events and conditions parameters. After clicking “Next,” a separate new interface will pop up (the previous interface will not disappear). (ICA, independent component analysis; EEG, electroencephalography; ERP, event-related potential).

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques: Selection

Running the batch preprocess script in EPAT. After clicking “Step 1 Run Batch Preprocess Script” and starting the analysis, four windows appear: 1. The MATLAB command window. 2. EPAT analysis progress. 3. The Pause window. 4. The EEGLAB information pop-up window.

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Running the batch preprocess script in EPAT. After clicking “Step 1 Run Batch Preprocess Script” and starting the analysis, four windows appear: 1. The MATLAB command window. 2. EPAT analysis progress. 3. The Pause window. 4. The EEGLAB information pop-up window.

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques:

Processing EEG data in EPAT. The process EEG One by One step contains a total of seven steps. (A) General page layout. (B) The scroll channel activities, scroll component activities, and topoplot map obtained from the loaded data. (EEG, electroencephalography).

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Processing EEG data in EPAT. The process EEG One by One step contains a total of seven steps. (A) General page layout. (B) The scroll channel activities, scroll component activities, and topoplot map obtained from the loaded data. (EEG, electroencephalography).

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques:

Processing ERP data in EPAT. The Epoch ERP One by One step contains a total of eight steps. (A) General page layout. (B) Analysis process after clicking “Start” in Step 3: First, users browse through each trial from the beginning, then click the bad trial with the left mouse button and mark it. After marking, users click “Bad trials” in the lower right corner, then return to the EpochERP interface and click “Acquire bad trials”; the corresponding bad trial number will appear in the upper space. (ERP, event-related potential).

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Processing ERP data in EPAT. The Epoch ERP One by One step contains a total of eight steps. (A) General page layout. (B) Analysis process after clicking “Start” in Step 3: First, users browse through each trial from the beginning, then click the bad trial with the left mouse button and mark it. After marking, users click “Bad trials” in the lower right corner, then return to the EpochERP interface and click “Acquire bad trials”; the corresponding bad trial number will appear in the upper space. (ERP, event-related potential).

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques:

Averaged ERP results in EPAT. (A) There are five modules (1. Load parameter file; 2. Load subject list; 3. Load ERP result file; 4. Select ERP from subjects and conditions; and 5. Plot mean ERPs from multiple subjects) and a toolbar (show filenames, show event names, plot channel locations, and save channel names) in the Step 4 (Show Averaged ERP Results) interface. (B) Export amplitudes and latencies of different averaged ERP components (in the form of Excel) for statistical tests. (ERP, event-related potential).

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Averaged ERP results in EPAT. (A) There are five modules (1. Load parameter file; 2. Load subject list; 3. Load ERP result file; 4. Select ERP from subjects and conditions; and 5. Plot mean ERPs from multiple subjects) and a toolbar (show filenames, show event names, plot channel locations, and save channel names) in the Step 4 (Show Averaged ERP Results) interface. (B) Export amplitudes and latencies of different averaged ERP components (in the form of Excel) for statistical tests. (ERP, event-related potential).

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques:

Time-frequency analysis in EPAT. Step 5 (Run TF for ERP) contains four modules. (A) General page layout: Module 1: Basic settings; Module 2: Extract rhythm and TF configurations; EEG/ERP configurations for TF; Module 3: Defined TF settings; and Module 4, which is used to track the procedure (at the bottom). (B) After clicking “Show TF” and entering the time window, frequency range, and channels of interest, EPAT will show and export TF results for ERP. (TF, time-frequency; ERP, event-related potential).

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Time-frequency analysis in EPAT. Step 5 (Run TF for ERP) contains four modules. (A) General page layout: Module 1: Basic settings; Module 2: Extract rhythm and TF configurations; EEG/ERP configurations for TF; Module 3: Defined TF settings; and Module 4, which is used to track the procedure (at the bottom). (B) After clicking “Show TF” and entering the time window, frequency range, and channels of interest, EPAT will show and export TF results for ERP. (TF, time-frequency; ERP, event-related potential).

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques:

Performance comparison with existing toolboxes.

Journal: Frontiers in Neuroinformatics

Article Title: EPAT: a user-friendly MATLAB toolbox for EEG/ERP data processing and analysis

doi: 10.3389/fninf.2024.1384250

Figure Lengend Snippet: Performance comparison with existing toolboxes.

Article Snippet: We introduce an open-source, user-friendly, and reproducible MATLAB toolbox named EPAT that includes a variety of algorithms for EEG data preprocessing.

Techniques: Comparison