There continues to be difficulties when it comes to replication of studies in the field of Psychology. In part, this may be caused by insufficiently standardized analysis methods that may be subject to state dependent variations in performance. In this work, we show how to easily adapt the two-layer feedforward neural network architecture provided by Huang (2003) to a behavioral classification problem as well as a physiological classification problem which would not be solvable in a standardized way otherwise. In addition, we provide an example for a new research paradigm along with this standardized analysis method. This paradigm as well as the analysis method can be adjusted to any necessary modification or applied to other paradigms or research questions. Hence, we wanted to show that two-layer feedforward neural networks can be used to increase standardization as well as replicability and illustrate this with examples based on a virtual T-maze paradigm by Rodrigues (2016) including free virtual movement via joystick and advanced physiological data signal processing. ; Julius-Maximilians University of Würzburg: Faculty of human sciences ; notReviewed ; other
Tell me what I told you Mini-Me: Constructing and providing two-layer feedforward networks for classification of continuous data in (and) a virtual T-maze
2020-10-01
Paper
Electronic Resource
English
DDC: | 629 |
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