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Weber’s Law for Timing and Time Perception: Reconciling the Poisson Clock with Scalar Expectancy Theory (SET)

Rolf Ulrich, Karin M. Bausenhart, J. H. Wearden

2022Timing & Time Perception12 citationsDOIOpen Access PDF

Abstract

Abstract The pacemaker-counter model is the most prominent psychological account of timing and time perception. It has been often assumed that an internal pacemaker generates pulses according to a Poisson process and that these pulses are accumulated over time. According to Scalar Expectancy Theory (SET), the number of accumulated pulses represents the elapsed duration to be timed. Although the Poisson process provides a plausible cognitive and physiological mechanism for timing and time perception, its implementation into the framework of SET remains a theoretical challenge. The present contribution shows that a merger of Creelman’s (1962) and Treisman’s (1963) counting models enables such an implementation, which can account for Weber’s law and scalar timing. We demonstrate this for the fundamental principles of counting and timing, as well as for a temporal bisection task.

Topics & Concepts

Time perceptionPoisson distributionPerceptionExpectancy theoryScalar (mathematics)Set (abstract data type)Poisson processComputer scienceMathematicsPsychologyCognitive psychologySocial psychologyStatisticsNeuroscienceGeometryProgramming languageNeuroscience and Music PerceptionMultisensory perception and integrationNeural dynamics and brain function
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