Difference between revisions of "MediaWiki:NE Tutorials"

From Neuroelectric's Wiki
Jump to: navigation, search
(Referencing EEG data)
(References)
 
(3 intermediate revisions by the same user not shown)
Line 14: Line 14:
  
  
 
 
== Stimulation with Starstim ==
 
 
{{#ev:youtube|I5uU20ut8Fk|600|center|Configuration of NIC for stimulation: from simple to advanced}}
 
  
  
Line 28: Line 23:
 
This provides an electrical reference to your data. Remember that voltages are only defined in relation to one another (there is no physical meaning to an absolute voltage!).  
 
This provides an electrical reference to your data. Remember that voltages are only defined in relation to one another (there is no physical meaning to an absolute voltage!).  
  
For visualization purposes you can always choose another reference: this will be another electrode or the electrode average. Using another electrode or average of electrodes as reference will have the effect of greatly reducing common noise: referencing just means subtracting the voltage from another electrode from the measurements. If there is some common noise, it will cancel.  
+
For online visualization purposes you can always choose another reference: this will be another electrode or the electrode average. Using another electrode or average of electrodes as reference will have the effect of greatly reducing common noise: referencing just means subtracting the voltage from another electrode from the measurements. If there is some common noise, it will cancel.  
  
 
You can "re-reference" in this way in NIC, but this will only have an impact on visualization: since you can always do this mathematical operation later, once the data is saved, all data is saved raw.
 
You can "re-reference" in this way in NIC, but this will only have an impact on visualization: since you can always do this mathematical operation later, once the data is saved, all data is saved raw.
 +
 +
[[File:referencing.png|250px|thumb|left| Picking a reference for online visualization in NIC ]]
 +
 +
 +
Once your data is saved, you can re-reference it using, e.g., Matlab.
  
 
== Visualizing EEG signals in real time ==
 
== Visualizing EEG signals in real time ==
Line 41: Line 41:
  
  
== References ==  
+
 
 +
 
 +
= Stimulation with Starstim =
 +
 
 +
{{#ev:youtube|I5uU20ut8Fk|600|center|Configuration of NIC for stimulation: from simple to advanced}}
 +
 
 +
 
 +
 
 +
= References =
 
  <references/>
 
  <references/>

Latest revision as of 10:57, 25 November 2013

In this page we provide some tutorials on a variety of topics. Enjoy, and send us feedback!


EEG

How to record EEG

We provide here an introduction to NIC, our software for device control. To learn more about tDCS and EEG, please see also this Jove video:

StarStim tCS EEG recording (Jove) <ref> Schestatsky, P., Morales-Quezada, L., Fregni, F.,  Simultaneous EEG Monitoring During Transcranial Direct Current Stimulation. J. Vis. Exp. (76), e50426, doi:10.3791/50426 (2013). </ref>


{{#ev:youtube| JdcG1Qdq4h8|600|center|An introduction to NIC}}



Referencing EEG data

You can reference your data in different ways.

To record data you must always place first the CMS/DRL electrodes..

This provides an electrical reference to your data. Remember that voltages are only defined in relation to one another (there is no physical meaning to an absolute voltage!).

For online visualization purposes you can always choose another reference: this will be another electrode or the electrode average. Using another electrode or average of electrodes as reference will have the effect of greatly reducing common noise: referencing just means subtracting the voltage from another electrode from the measurements. If there is some common noise, it will cancel.

You can "re-reference" in this way in NIC, but this will only have an impact on visualization: since you can always do this mathematical operation later, once the data is saved, all data is saved raw.

Picking a reference for online visualization in NIC


Once your data is saved, you can re-reference it using, e.g., Matlab.

Visualizing EEG signals in real time

Marking your data with manual input

Using the TTL receiver to mark your data

Receiving TCP/IP triggers

How to use the SD card

Using NIC Offline

Using Matlab to visualize EEG

Stimulation with Starstim

{{#ev:youtube|I5uU20ut8Fk|600|center|Configuration of NIC for stimulation: from simple to advanced}}


References

<references/>