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I would like to analyze a dataset in which subjects' reaction time and error rate have been recorded. In order to account for potential speed-accuracy trade-off I am planning to make use of the Ratcliff's diffusion model. My data is a within-subject repeated-measures design with two sessions per subject (drug & placebo) with multiple measurements in each session (around 80).

While reading some papers regarding this topic I found a nice report by Wenzlaff et al. (2011). First they fit the diffusion model for every subject and then take the estimated parameters to an ANOVA. However I was confused by their approach: it seems they select the best fitting model for every subject and in this way are fitting models with different parameters for the subjects. My understanding was that it is not a valid approach to put together estimates from models with different parameters?

My questions are:

  • Would it be a valid approach to first fit the diffusion model separately for every subject and then take the estimated parameters to a group-level analysis (e.g. repeated-measures ANOVA)?
  • Prior to ANOVA of parameter estimates: is it - in the above context - better to fit the same model to all subjects or to select the best fitting model for every subject?

Wenzlaff, H., Bauer, M., Maess, B., & Heekeren, H. R. (2011). Neural characterization of the speed–accuracy tradeoff in a perceptual decision-making task. The Journal of Neuroscience, 31(4), 1254-1266.

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"My understanding was that it is not a valid approach to put together estimates from models with different parameters" - Where did you understand that from? –  Ofri Raviv Oct 30 '12 at 21:01
    
Is there anything specific to Ratcliff's model here? Because the way I see it, this question is equally valid to any model you fit to any multi-subject data. –  Ofri Raviv Oct 30 '12 at 21:03
    
Do I understand correctly that you are planning to fit the diffusion model on a by-participant basis to two data points per participant? –  Pavel Nov 13 '12 at 23:36
    
No - sorry for the unclear question. It is two sessions (drug & placebo) with several measurements in each session. I updated the question. –  jokel Nov 14 '12 at 7:23

1 Answer 1

Using Parameters Estimated from an Individual in a Group Analysis

In a way this is exactly what usually happens when we calculate the mean reaction time across all conditions for a group of participants. When we normally calculate mean reaction times we assume that some process (P) takes t milliseconds to complete plus some Gaussian distributed noise. We want to estimate this parameter (t) across conditions, to make some statement about how the treatment effects processing. Then we calculate this set of parameters for a number of participants to ensure that we are looking at something interesting at the population level.

However, we can adopt more sophisticated models with more parameters that better represent how reaction times actually vary. Take the simple case of the ex-Gaussian distribution. This distribution is the combination of an exponential distribution and a Gaussian distribution. The shape of an ex-Gaussian is much closer to a distribution of observed reaction times than just the Gaussian alone. Reaction times modelled with an ex-Gaussian involve fitting two parameters; one for the Gaussian and one for the exponential components of the model. So in this case we would calculate these parameters for each condition and participant. Then we would enter these sets of parameters into two repeated measures ANOVAs; one for the Gaussian parameters and one for the exponential parameters. Then we can assess whether the treatment alters how the reaction times vary. The problem with the ex-Gaussian is that the two parameters have no psychological basis, so there is no meaningful interpretation of the treatment effect on these parameters.

This is where diffusion models are useful because the parameters in the model are psychologically meaningful, allowing us to make interesting inferences from changes in the parameters across conditions.

Same Model or the Best Model or each Participant?

I'm no expert with diffusion models, but I would expect that the same model should be applied to each participant. Not doing so would mean that you are assuming a different model for your reaction time distributions across participants.

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