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Related Experiment Video

Updated: Jul 3, 2026

Measuring Delay Discounting in Humans Using an Adjusting Amount Task
07:47

Measuring Delay Discounting in Humans Using an Adjusting Amount Task

Published on: January 9, 2016

On diffusion processes with variable drift rates as models for decision making during learning.

P Eckhoff1, P Holmes, C Law

  • 1Program in Applied and Computational Mathematics, Princeton University, Princeton, NJ 08544, U.S.A.

New Journal of Physics
|August 5, 2008
PubMed
Summary
This summary is machine-generated.

This study models evidence accumulation using Ornstein-Uhlenbeck and diffusion processes. Learning in a visual task primarily improved the signal-to-noise ratio of sensory evidence, not its timing.

Related Experiment Videos

Last Updated: Jul 3, 2026

Measuring Delay Discounting in Humans Using an Adjusting Amount Task
07:47

Measuring Delay Discounting in Humans Using an Adjusting Amount Task

Published on: January 9, 2016

Area of Science:

  • Cognitive Neuroscience
  • Computational Neuroscience
  • Decision Science

Background:

  • Evidence accumulation models, like the diffusion model, are crucial for understanding decision-making.
  • Understanding how learning affects the parameters of these models is key to explaining behavioral improvements.

Purpose of the Study:

  • To model evidence accumulation in a visual discrimination task using Ornstein-Uhlenbeck and diffusion processes with variable drift rates.
  • To characterize how model parameters influence performance accuracy and how they change with learning.

Main Methods:

  • Derivation of power-law and exponential drift-rate models.
  • Fitting these models to psychophysical data from monkeys during task learning.
  • Analysis of parameter changes reflecting learning effects on the decision process.

Main Results:

  • The overall drift rate, representing the signal-to-noise ratio of sensory evidence, increased steadily with training.
  • Secondary parameters related to the timing of drift during stimulus viewing did not show consistent trends.
  • Simple diffusion model versions effectively captured behavioral changes across training.

Conclusions:

  • Learning in this visual task primarily enhances the efficiency of evidence processing (drift rate).
  • The diffusion model provides a quantitative framework for understanding learning-related changes in decision-making.
  • Model parameters offer insights into the neural mechanisms underlying decision improvement.