Bloch's law predictions from diffusion process models of detection
- 1 December 1998
- journal article
- Published by Taylor & Francis in Australian Journal of Psychology
- Vol. 50 (3) , 139-147
- https://doi.org/10.1080/00049539808258790
Abstract
This paper describes a new model for Bloch's law based on the multichannel leaky stochastic integrators of P.L. Smith (1995). These models combine a linear filter model of stimulus encoding with a dynamic stochastic, information-accrual model of the decision stage. Accrued information is described by a time-inhomogeneous Ornstein-Uhlenbeck diffusion process, with the probability of a detection given by the first-passage time distribution of the process through an absorbing barrier. When combined with monophasic and biphasic temporal impulse response functions, the model correctly predicts Bloch's law and the differential breakdown of Bloch's law for large and small disk stimuli and grating stimuli of high and low spatial frequencies.Keywords
This publication has 39 references indexed in Scilit:
- Temporal Impulse Response Functions for Luminance and Colour During SaccadesVision Research, 1996
- Intersensory Facilitation of Reaction Time: Evaluation of Counter and Diffusion Coactivation ModelsJournal of Mathematical Psychology, 1995
- Temporal properties of the red-green chromatic mechanismVision Research, 1994
- Sensory and cognitive components of visual information acquisition.Psychological Review, 1994
- Decision field theory: A dynamic-cognitive approach to decision making in an uncertain environment.Psychological Review, 1993
- Two pulses seen as three flashes: A superposition analysisVision Research, 1989
- A new integral equation for the evaluation of first-passage-time probability densitiesAdvances in Applied Probability, 1987
- Simple reaction time with markovian evolution of gaussian discriminal processesPsychometrika, 1970
- Research into the Dynamic Nature of the Human Fovea→Cortex Systems with Intermittent and Modulated Light I Attenuation Characteristics with White and Colored LightJournal of the Optical Society of America, 1958
- Relationship between Critical Flicker-Frequency and a Set of Low-Frequency Characteristics of the EyeJournal of the Optical Society of America, 1954