<div dir="ltr"><div><div><div><div>Hi Harold,<br><br></div>If you're only interested in identifying which timepoints have the best correlation, multiple comparisons aren't really an issue; if you're not worried about testing for significance, then the place where you see the highest estimate is the highest. See e.g., Hauk et al. 2006 in NeuroImage, and <span class="">Smith</span> & <span class="">Kutas</span> 2015 in Psychophysiology, for similar analyses.<br><br></div>If you're interested in finding a part of the waveform where the correlation is significantly different from zero while also dealing with multiple comparisons, you could use [spatio]temporal clustering (Maris & Oostenveld 2007). Just make an event-related regression coefficient (as described in Hauk et al.; just do a regression at each timepoint, and then rather than plotting the ERP amplitude at each timepoint, plot the regression estimate (<i>b</i>) at each timepoint, to derive a similar waveform) and then test that waveform against 0 using temporal clustering.<br><br></div>Best,<br></div>Steve<br><div><div><div><br clear="all"><div><div><div class="gmail_extra"><br clear="all"><div><div class="gmail_signature"><div dir="ltr"><div><div dir="ltr"><div><div dir="ltr"><span><div><br><br>---<br></div>Stephen Politzer-Ahles<br>University of Oxford<br>Language and Brain Lab<br>Faculty of Linguistics, Phonetics & Philology<br><a href="http://users.ox.ac.uk/~cpgl0080/" target="_blank">http://users.ox.ac.uk/~cpgl0080/</a></span></div></div></div></div></div></div></div>
<div class="gmail_quote"><div><br> </div><blockquote class="gmail_quote" style="margin:0px 0px 0px 0.8ex;border-left:1px solid rgb(204,204,204);padding-left:1ex">
Message: 5<br>
Date: Tue, 26 Jan 2016 00:25:13 +0100<br>
From: Harold Cavendish <<a href="mailto:harold.cav89@gmail.com">harold.cav89@gmail.com</a>><br>
To: <a href="mailto:fieldtrip@science.ru.nl">fieldtrip@science.ru.nl</a><br>
Subject: [FieldTrip] Fwd: Identify a window of best correlation<br>
between ERP and behavioural data<br>
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<<a href="mailto:CALOTjvZXPNWHLefXrG6uss7uF3kkXie7qjiWqEcesOUqWay6qA@mail.gmail.com">CALOTjvZXPNWHLefXrG6uss7uF3kkXie7qjiWqEcesOUqWay6qA@mail.gmail.com</a>><br>
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<br>
Dear FieldTrip users,<br>
<br>
I'm looking for the best method to analyse the relationship between ERP and<br>
behavioural data but all I've been able to find so far are methods to<br>
compare ERPs (or more generally time-series).<br>
<br>
Consider the following example: 20 participants performed a memory-related<br>
task in which they had to respond based on the difference between the<br>
target stimulus and the probe stimulus. EEG (50 electrodes, about 1000<br>
samples at 200 Hz) and responses were recorded; ERPs were then created<br>
based on epochs in which the responses were correct. Similarly, response<br>
accuracy was averaged over all successful epochs per each subject.<br>
<br>
The resulting data are therefore: 20 participants x 50 channels x 1000<br>
samples (ERP) and 20 averages of accuracy (one value per participant).<br>
<br>
My objective is to identify which portion of the ERP data best explains (or<br>
predicts) the changes in accuracy. In other words, in which time interval<br>
is the most significant difference between people who do well in the task<br>
and those who don't.<br>
<br>
So far I've been doing correlations between ERP at each time point and<br>
overall accuracy, which is unreliable due to multiple comparisons<br>
(correction methods are reportedly too conservative). Nevertheless, certain<br>
channels show quite strong correlations in multiple time intervals.<br>
<br>
How would you approach this problem, please?<br>
<br>
Many thanks!<br>
<br>
Best regards,<br>
Harold<br>
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