Quantifying uncertainty in drift diffusion models of decision making under temporal dependence and parameter variability

Riegner, G.; Schwartzman, A.; Reinagel, P.

2026-05-20 animal behavior and cognition

10.64898/2026.05.17.722295 bioRxiv

Show abstract

Decision-making behavior changes over time, exhibiting temporal correlation and nonstationarity. Existing drift diffusion model (DDM) fitting methods either do not provide uncertainty quantification for parameter estimates, or rely on restrictive assumptions that decisions are independent and that parameters remain constant over time, potentially underestimating uncertainty. To address these limitations, we propose a computationally efficient method for estimating analytic uncertainties in DDM parameters that are robust to temporal dependence and unmodeled parameter variability, while explicitly modeling nonstationary variability through covariates. We apply this method to rat decision-making in a two-alternative forced-choice (2AFC) visual task, revealing dynamic decision-making states across multiple timescales. A Python implementation of the method is provided.

Matching journals

●Non-profit ◐University press ○Commercial

The top 3 journals account for 50% of the predicted probability mass.

Only show non-profit

PLOS Computational Biology

● 1633 papers in training set

● 5422 papers in training set

Journal of The Royal Society Interface

● 189 papers in training set

50% of probability mass above

● 4510 papers in training set

Nature Communications

○ 4913 papers in training set

Methods in Ecology and Evolution

○ 160 papers in training set

Scientific Reports

○ 3102 papers in training set

Proceedings of the National Academy of Sciences

● 2130 papers in training set

Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences

● 15 papers in training set

Human Brain Mapping

○ 295 papers in training set

Journal of Theoretical Biology

○ 144 papers in training set

● 389 papers in training set

Frontiers in Behavioral Neuroscience

○ 46 papers in training set

Neural Computation

● 36 papers in training set

Movement Ecology

○ 18 papers in training set

● 408 papers in training set

Communications Biology

○ 886 papers in training set

● 756 papers in training set

Frontiers in Computational Neuroscience

○ 53 papers in training set

Nature Machine Intelligence

○ 61 papers in training set

Physical Review Research

● 46 papers in training set

○ 1063 papers in training set

Neural Networks

○ 32 papers in training set

Proceedings of the Royal Society B: Biological Sciences

● 341 papers in training set