The Parallel Episodic Processing (PEP) model is a neural network for simulating human performance in speeded response time tasks. It learns with an exemplar-based memory store and it is capable of modelling findings from various subdomains of cognition. In this paper, we show how the PEP model can be designed to follow instructions (e.g., task rules and goals). The extended PEP model is then used to simulate a number of key findings from the task switching domain. These include the switch cost, task-rule congruency effects, response repetition asymmetries, cue repetition benefits, and the full pattern of means from a recent feature integration decomposition of cued task switching (Schmidt & Liefooghe, 2016). We demonstrate that the PEP mode...
Performing two randomly alternating tasks typically results in higher reaction times (RTs) following...
Previous work has shown that extended practice leads to a reduction in a key measure of cognitive in...
International audienceWhen subjects switch between two tasks, performance is slower after a task swi...
The Parallel Episodic Processing (PEP) model is a neural network for simulating human performance in...
The Parallel Episodic Processing (PEP) model is a neural network for simulating human performance in...
In our recent article (Schmidt, Liefooghe, & De Houwer, 2020, this volume), we presented an adaptati...
In our recent article (Schmidt, Liefooghe, & De Houwer, 2020, this volume), we presented an adaptati...
This report presents data from two versions of the task switching procedure in which the separate in...
Inhibition in task switching is inferred from [Formula: see text] task repetition costs: slower resp...
This thesis is concerned with the study of executive function using the task switching paradigm. It ...
Inhibition in task switching is inferred from n–2 repetition costs: the observation that ABA task sw...
N-2 repetition costs in task switching refer to slower responses to ABA sequences compared to CBA se...
Performing two randomly alternating tasks typically results in higher reaction times (RTs) following...
Previous work has shown that extended practice leads to a reduction in a key measure of cognitive in...
International audienceWhen subjects switch between two tasks, performance is slower after a task swi...
The Parallel Episodic Processing (PEP) model is a neural network for simulating human performance in...
The Parallel Episodic Processing (PEP) model is a neural network for simulating human performance in...
In our recent article (Schmidt, Liefooghe, & De Houwer, 2020, this volume), we presented an adaptati...
In our recent article (Schmidt, Liefooghe, & De Houwer, 2020, this volume), we presented an adaptati...
This report presents data from two versions of the task switching procedure in which the separate in...
Inhibition in task switching is inferred from [Formula: see text] task repetition costs: slower resp...
This thesis is concerned with the study of executive function using the task switching paradigm. It ...
Inhibition in task switching is inferred from n–2 repetition costs: the observation that ABA task sw...
N-2 repetition costs in task switching refer to slower responses to ABA sequences compared to CBA se...
Performing two randomly alternating tasks typically results in higher reaction times (RTs) following...
Previous work has shown that extended practice leads to a reduction in a key measure of cognitive in...
International audienceWhen subjects switch between two tasks, performance is slower after a task swi...