Comparing competing models of retrieval processes
Summary
In order to correctly parse a sentence, its underlying structure needs to be
understood. The functional task of every word in a sentence stands in relation
to other words through the notion of dependency, and the task for the person
taking in a sentence is to lay such dependency links between the word they are
currently attending and one of the previously attended words. How exactly the
chosen previously attended word is retrieved from memory is often under specified.
Therefore Nicenboim & Vasishth (2018) compared two models with each
other in terms of their power to describe the speed/accuracy trade-off of this
process. We expand on this work by using these two models with a dataset that
includes individuals with aphasia. The first model is the activation-based race
model. It assumes that resolving syntactic dependencies is related to the activation
of previously retrieved candidate dependants. When confronted with a new
item, these candidates accumulate activation over time. The dependant (and
thus, the interpretation) associated with the accumulator that first surpasses
its threshold is chosen. The second model is the direct access model which assumes
instant access to previously retrieved words. The difference in listening
times here is explained by a backtrack-and-repair process that may take place
when the initial parse is deemed incorrect. The activation-based race model is
implicitly assumes that incorrect interpretations are generally associated with
longer listening times, whereas the direct access model is ties incorrect interpretations
with shorter listening times. The resulting fits on the empirical data
show that although the data tells us that the mean listening times for all of
its cross sections are shorter for incorrect trials, the direct access model does
not perform better. Instead, the resulting fits indicate that both models have
problems fitting certain different aspects of the data.