Hass and Hermann (2012) have shown that only variance-based processes will lead to the scalar growth of error that is characteristic of human time judgments. Secondly, a major meta-review of over one hundred studies (Block et al., 2010) reveals a striking interaction between the way in which temporal judgments are queried and cognitive load on participants’ judgments of interval duration. For retrospective time judgments, estimates under high cognitive load are longer than under low cognitive load. For prospective judgments, the reverse pattern holds, with increased cognitive load leading to shorter estimates. We describe GAMIT, a Gaussian spreading-activation model, in which the sampling rate of an activation trace is differentially affected by cognitive load. The model unifies prospective and retrospective time estimation, normally considered separately, by relating them to the same underlying process. The scalar property of time estimation arises naturally from the model dynamics and the model shows the appropriate interaction between mode of query and cognitive load.
Publication
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Année de publication : 2014
Type :
Document de conférence
Document de conférence
Auteurs :
French, R. M.
Addyman, C.
Mareschal, D.
Thomas, E.
French, R. M.
Addyman, C.
Mareschal, D.
Thomas, E.
Titre de la présentation :
Unifying prospective and retrospective interval-time estimation: A fading-Gaussian activation-based model of interval-timing
Unifying prospective and retrospective interval-time estimation: A fading-Gaussian activation-based model of interval-timing
Nom de la conférence :
International Conference on Timing and Time Perception 2014
International Conference on Timing and Time Perception 2014
Lieu :
Corfu, Grèce
Corfu, Grèce
Mots-clés :
Interval-timing, Activation-based model, Time perception, Retrospective and prospective timing
Interval-timing, Activation-based model, Time perception, Retrospective and prospective timing