Abstract
AbstractTrial history biases and lapses are two of the most common suboptimalities observed during perceptual decision-making. These suboptimalities are routinely assumed to arise from distinct processes. However, previous work has suggested that they covary in their prevalence and that their proposed neural substrates overlap. Here we demonstrate that during decision-making, history biases and apparent lapses can both arise from a common cognitive process that is optimal under mistaken beliefs that the world is changing i.e. nonstationary. This corresponds to an accumulation-to-bound model with history-dependent updates to the initial state of the accumulator. We test our model’s predictions about the relative prevalence of history biases and lapses, and show that they are robustly borne out in two distinct decision-making datasets of male rats, including data from a novel reaction time task. Our model improves the ability to precisely predict decision-making dynamics within and across trials, by positing a process through which agents can generate quasi-stochastic choices.
Publisher
Springer Science and Business Media LLC
Reference74 articles.
1. Cho, R. et al. Mechanisms underlying dependencies of performance on stimulus history in a two-alternative forced-choice task. Cogn. Affect. Behav. Neurosci. 2, 283–299 (2002).
2. Gold, J., Law, C., Connolly, P. & Bennur, S. The relative influences of priors and sensory evidence on an oculomotor decision variable during perceptual learning. J. Neurophysiol. 100, 2653–2668 (2008).
3. Busse, L. et al. The detection of visual contrast in the behaving mouse. J. Neurosci. 31, 11351–11361 (2011).
4. Carandini, M. & Churchland, A. Probing perceptual decisions in rodents. Nat. Neurosci. 16, 824–831 (2013).
5. Zhang, S., Huang, H. & Yu, A. Sequential effects: A Bayesian analysis of prior bias on reaction time and behavioral choice. Proc. Ann. Meet. Cogn. Sci. Soc. 36 (2014).
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