The present work introduces a computational model, the Parallel Episodic Processing (PEP) model, which demonstrates that contingency learning achieved via simple storage and retrieval of episodic memories can explain the item-specific proportion congruency effect in the colour-word Stroop paradigm. The current work also presents a new experimental procedure to more directly dissociate contingency biases from conflict adaptation (i.e., proportion congruency). This was done with three different types of incongruent words that allow a comparison of: (a) high versus low contingency while keeping proportion congruency constant, and (b) high versus low proportion congruency while keeping contingency constant. Results demonstrated a significant contingency effect, but no effect of proportion congruence. It was further shown that the proportion congruency associated with the colour does not matter, either. Thus, the results quite directly demonstrate that ISPC effects are not due to conflict adaptation, but instead to contingency learning biases. (C) 2012 Elsevier B.V. All rights reserved
Publication
Année de publication : 2013
Type :
Article de journal
Article de journal
Auteurs :
Schmidt, J.R.
Schmidt, J.R.
Titre du journal :
Acta Psychologica
Acta Psychologica
Volume du journal :
142
142
Mots-clés :
contingency learning episodic memory conflict adaptation proportion congruency computational modelling trace memory model cognitive control stroop task classification interference recognition frequency attention accounts
contingency learning episodic memory conflict adaptation proportion congruency computational modelling trace memory model cognitive control stroop task classification interference recognition frequency attention accounts