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'''[UNDER CONSTRUCTION]''' These tutorial pages suppose you are comfortable with the basic concepts of MEG/EEG analysis and source imaging. If you're not, we encourage you to read some [[http://neuroimage.usc.edu/brainstorm/TutorialsNew#Background_readings|background literature]].<<BR>>To get a quick overview of the software interface, you can watch this [[Screenshots|introduction video]]. |
These tutorial pages suppose you are comfortable with the basic concepts of MEG/EEG analysis and source imaging. If you're not, we encourage you to read some [[http://neuroimage.usc.edu/brainstorm/Tutorials#Background_readings|background literature]].<<BR>>To get a quick overview of the software interface, you can watch this [[Screenshots|introduction video]].<<BR>><<HTML(<FONT color="#C0C0C0" >)>>If you are looking for the old tutorials, they are still available [[TutorialsOld|here]]. <<HTML(</FONT>)>> |
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The easiest way to get started with Brainstorm is to read and follow carefully these introduction tutorials. In just a few hours, you will be introduced to the essential features of the application. The number between brackets represents the number of printed pages for each tutorial. | The easiest way to get started with Brainstorm is to read and follow carefully these introduction tutorials. The number between brackets represents the number of printed pages for each tutorial. |
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<<HTML( )>>4. [[Tutorials/ChannelFile|Channel file / MRI registration]] <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>> | <<HTML( )>>4. [[Tutorials/ChannelFile|Channel file / MRI registration]] <<HTML(<FONT color="#DDDDDD">)>>[11] <<HTML(</FONT>)>> |
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<<HTML( )>>5. [[Tutorials/ReviewRaw|Continuous recordings]] <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>> | <<HTML( )>>5. [[Tutorials/ReviewRaw|Continuous recordings]] <<HTML(<FONT color="#DDDDDD">)>>[9] <<HTML(</FONT>)>> |
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<<HTML( )>>6. [[Tutorials/MultipleWindows|Multiple windows <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>>]] | <<HTML( )>>6. [[Tutorials/MultipleWindows|Multiple windows]] <<HTML(<FONT color="#DDDDDD">)>>[5] <<HTML(</FONT>)>> |
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<<HTML( )>>10. [[Tutorials/ArtifactsFilter|Power spectrum / Frequency filters]] <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>> | <<HTML( )>>10. [[Tutorials/ArtifactsFilter|Power spectrum / Frequency filters]] <<HTML(<FONT color="#DDDDDD">)>>[11] <<HTML(</FONT>)>> |
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<<HTML( )>>11. [[Tutorials/BadChannels|Bad channels]] <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>> | <<HTML( )>>11. [[Tutorials/BadChannels|Bad channels]] <<HTML(<FONT color="#DDDDDD">)>>[6] <<HTML(</FONT>)>> |
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<<HTML( )>>12. [[Tutorials/ArtifactsDetect|Artifact detection]] <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>> | <<HTML( )>>12. [[Tutorials/ArtifactsDetect|Artifact detection]] <<HTML(<FONT color="#DDDDDD">)>>[7] <<HTML(</FONT>)>> |
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<<HTML( )>>13. [[Tutorials/ArtifactsSsp|Artifact cleaning with SSP]] <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>> | <<HTML( )>>13. [[Tutorials/ArtifactsSsp|Artifact cleaning with SSP]] <<HTML(<FONT color="#DDDDDD">)>>[16] <<HTML(</FONT>)>> |
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<<HTML( )>>14. [[Tutorials/BadSegments|Additional bad segments]] <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>> '''Epoching and averaging''''''<<BR>>[Under construction] ''' <<HTML( )>>15. [[Tutorials/Epoching|Import epochs]] <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>> <<HTML( )>>16. [[Tutorials/Averaging|Average response]] [Under construction] <<HTML( )>>17. [[Tutorials/ExploreRecordings|Exploring the average response]] <<HTML( )>>18. 2D/3D topography <<HTML( )>>19. [[Tutorials/Colormaps|Colormaps]] <<HTML( )>>?? Clusters of sensors |
<<HTML( )>>14. [[Tutorials/BadSegments|Additional bad segments]] <<HTML(<FONT color="#DDDDDD">)>>[7] <<HTML(</FONT>)>> |
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'''Source modeling''''''<<BR>>[Under construction] ''' | '''Epoching and averaging''' |
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<<HTML( )>>20. [[Tutorials/HeadModel|Head model]] | <<HTML( )>>15. [[Tutorials/Epoching|Import epochs]] <<HTML(<FONT color="#DDDDDD">)>>[7] <<HTML(</FONT>)>> |
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<<HTML( )>>21. [[Tutorials/NoiseCovariance|Noise covariance]] | <<HTML( )>>16. [[Tutorials/Averaging|Average response]] <<HTML(<FONT color="#DDDDDD">)>>[7] <<HTML(</FONT>)>> |
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<<HTML( )>>22. [[Tutorials/SourceEstimation|Source estimation]] | <<HTML( )>>17. [[Tutorials/ExploreRecordings|Visual exploration]] <<HTML(<FONT color="#DDDDDD">)>>[10] <<HTML(</FONT>)>> |
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<<HTML( )>>23. [[Tutorials/Scouts|Scouts]] | <<HTML( )>>18. [[Tutorials/Colormaps|Colormaps]] <<HTML(<FONT color="#DDDDDD">)>>[6] <<HTML(</FONT>)>> |
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'''Advanced signal processing''''''<<BR>>[Under construction] ''' | <<HTML( )>>19. [[Tutorials/ChannelClusters|Clusters of sensors]] <<HTML(<FONT color="#DDDDDD">)>>[4] <<HTML(</FONT>)>> |
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<<HTML( )>>24. [[Tutorials/TimeFrequency|Time-frequency]] | '''Source modeling''' |
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<<HTML( )>>25. [[Tutorials/Statistics|Statistics]] | <<HTML( )>>20. [[Tutorials/HeadModel|Head model]] <<HTML(<FONT color="#DDDDDD">)>>[8] <<HTML(</FONT>)>> |
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<<HTML( )>>26. [[Tutorials/Connectivity|Connectivity]] | <<HTML( )>>21. [[Tutorials/NoiseCovariance|Noise/data covariance]] <<HTML(<FONT color="#DDDDDD">)>>[8] <<HTML(</FONT>)>> |
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<<HTML( )>>27. Phase-amplitude coupling | <<HTML( )>>22. [[Tutorials/SourceEstimation|Source estimation]] [Under construction] |
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'''Scripting'''''' <<BR>>[Under construction] ''' | <<HTML( )>>23. [[Tutorials/Scouts|Scouts]] <<HTML(<FONT color="#DDDDDD">)>>[17] <<HTML(</FONT>)>> |
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<<HTML( )>>28. [[Tutorials/Scripting|Complete tutorial script]] | '''Advanced processing''' |
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<<HTML( )>>29. [[Tutorials/AllIntroduction|All the tutorials on the same page]] | <<HTML( )>>24. [[Tutorials/TimeFrequency|Time-frequency]] <<HTML(<FONT color="#DDDDDD">)>>[22] <<HTML(</FONT>)>> <<HTML( )>>25. [[Tutorials/Difference|Difference]] <<HTML(<FONT color="#DDDDDD">)>>[9] <<HTML(</FONT>)>> <<HTML( )>>26. [[Tutorials/Statistics|Statistics]] <<HTML(<FONT color="#DDDDDD">)>>[27] <<HTML(</FONT>)>> <<HTML( )>>27. [[Tutorials/Connectivity|Connectivity]] [Under construction] <<HTML( )>>28. [[Tutorials/Scripting|Scripting]] [Under construction] |
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1. [[http://neuroimage.usc.edu/brainstorm/Tutorials/Epilepsy|EEG and epilepsy]] 1. [[http://neuroimage.usc.edu/brainstorm/Tutorials/Auditory|MEG auditory tutorial (CTF)]] |
1. [[Tutorials/Epilepsy|EEG and epilepsy]] 1. [[Tutorials/Auditory|MEG auditory tutorial (CTF)]] |
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1. [[http://neuroimage.usc.edu/brainstorm/Tutorials/Yokogawa|MEG median nerve (Yokogawa/KIT)]] 1. [[http://neuroimage.usc.edu/brainstorm/Tutorials/TutMindNeuromag|MEG median nerve (Elekta-Neuromag)]] [Under construction] 1. [[http://neuroimage.usc.edu/brainstorm/Tutorials/Resting|MEG resting state (CTF)]] |
1. [[Tutorials/Yokogawa|MEG median nerve (Yokogawa/KIT)]] 1. [[Tutorials/TutMindNeuromag|MEG median nerve (Elekta-Neuromag)]] [Under construction] 1. [[Tutorials/Resting|MEG resting state (CTF)]] 1. [[Tutorials/VisualSingle|MEG visual single subject (Elekta-Neuromag)]] [Under construction] 1. [[Tutorials/VisualGroup|MEG visual group study (Elekta-Neuromag)]] [Under construction] 1. MEG steady-state visual (CTF) |
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1. ICA decomposition [Under construction] | 1. [[Tutorials/ICA|ICA decomposition]] [Under construction] |
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1. Group analysis: Averaging [Under construction] |
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1. [[http://neuroimage.usc.edu/brainstorm/Tutorials/DeepAtlas|Deep cerebral structures]] [Under construction] |
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1. [[Tutorials/DipoleFitting|Dipole fitting with FieldTrip]] |
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1. [[Tutorials/TutBEst|Maximum Entropy on the Mean (MEM)]] [Under construction] | 1. [[Tutorials/TutBEst|Maximum Entropy on the Mean (MEM)]] 1. [[Tutorials/TutBEst|Maximum Entropy on the Mean (MEM) - Epilepsy]] |
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1. [[Tutorials/Decoding|Decoding conditions (MVPA)]] 1. [[Tutorials/MicrostatesCena|Microstate segmentation with CENA]] |
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1. [[Tutorials/IPythonNotebook|Brainstorm on IPython Notebook]] [Under construction] | |
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1. [[Tutorials/AllIntroduction|All the introduction tutorials on the same page]] |
Tutorials
These tutorial pages suppose you are comfortable with the basic concepts of MEG/EEG analysis and source imaging. If you're not, we encourage you to read some background literature.
To get a quick overview of the software interface, you can watch this introduction video.
If you are looking for the old tutorials, they are still available ?here.
Get started
The easiest way to get started with Brainstorm is to read and follow carefully these introduction tutorials. The number between brackets represents the number of printed pages for each tutorial.
Starting a new study 1. Create a new protocol [9] 2. Import the subject anatomy [8] 3. Explore the anatomy [10] Reviewing 4. Channel file / MRI registration [11] 5. Continuous recordings [9] 6. Multiple windows [5] 7. Event markers [10] Pre-processing 8. Stimulation delays [10] 9. Select files / Run processes [10] 10. Power spectrum / Frequency filters [11] 11. Bad channels [6] 12. Artifact detection [7] 13. Artifact cleaning with SSP [16] 14. Additional bad segments [7] | Epoching and averaging 15. Import epochs [7] 16. Average response [7] 17. Visual exploration [10] 18. Colormaps [6] 19. Clusters of sensors [4] Source modeling 20. Head model [8] 21. Noise/data covariance [8] 22. Source estimation [Under construction] 23. Scouts [17] Advanced processing 24. Time-frequency [22] 25. Difference [9] 26. Statistics [27] 27. Connectivity [Under construction] 28. Scripting [Under construction] |
Other analysis scenarios
MEG median nerve (CTF) [Under construction]
MEG median nerve (Elekta-Neuromag) [Under construction]
MEG visual single subject (Elekta-Neuromag) [Under construction]
MEG visual group study (Elekta-Neuromag) [Under construction]
- MEG steady-state visual (CTF)
Advanced tutorials
Recordings
Montage editor [Under construction]
?ICA decomposition [Under construction]
Anatomy and registration
MRI segmentation: FreeSurfer, BrainSuite, BrainVISA, CIVET
Using the anatomy templates [Under construction]
Source modeling
Deep cerebral structures [Under construction]
Beamforming methods [Under construction]
Advanced processing
Other useful how-to's
?Brainstorm on IPython Notebook [Under construction]
Tutorials from other authors
This video illustrates how Brainstorm can be used for studying amygdala activity:
How to Detect Amygdala Activity with Magnetoencephalography using Source Imaging
Authors: Balderston NL, Schultz DH, Baillet S, Helmstetter FJA tutorial in Japanese (click on the menu "Brainstorm")
?MEG analysis guidelines for McGill
Background readings
These tutorial pages suppose you are comfortable with the basic concepts of MEG and EEG source imaging. If you're not, we engage you to read some background information, which will quickly help you getting up to speed with this field:
A non-technical overview of MEG and EEG, with an emphasis on source modeling:
Canada MEG ConsortiumSlides from a selection of educational courses:
megcommunity.org- Reference books:
MEG: An Introduction to Methods
Editors: P Hansen, M Kringelbach, R Salmelin, Oxford University Press, 2010, 448 pagesThe Oxford Handbook of Social Neuroscience
Editors: J Decety, JT Cacioppo, Oxford University Press, 2011, 1128 pages
A draft version of the MEG chapter by Sylvain Baillet can be found here.
Good practice for conducting and reporting MEG research, Gross et al, Neuroimage, 2013
You can also ask us to come and organize a training session at your institution, or visit us to obtain training (McGill's Montreal Neurological Institute).
Now you are well equipped to go through the software tutorial, Enjoy!