Human probability judgments are systematically biased, in apparent tension with Bayesian models of cognition. But perhaps the brain does not represent probabilities explicitly, but approximates probabilistic calculations through a process of sampling, as used in computational probabilistic models in statistics. Naïve probability estimates can be obtained by calculating the relative frequency of an event within a sample, but these estimates tend to be extreme when the sample size is small. We propose instead that people use a generic prior to improve the accuracy of their probability estimates based on samples, and we call this model the Bayesian sampler. The Bayesian sampler trades off the coherence of probabilistic judgments for improved a...
We examined the conditions under which sampling information from different probability distributions...
The brain must make inferences about, and decisions concerning, a highly complex and unpredictable w...
Citation: Brase, G. L., & Hill, W. T. (2015). Good fences make for good neighbors but bad science: a...
Bayesian cognitive science sees the mind as a spectacular probabilistic inference machine. But Judgm...
Normative models of decision-making that optimally transform noisy (sensory) information into catego...
Bayesian explanations have swept through cognitive science over the past two decades, from intuitive...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Brain and Cognitive Sciences, 2010....
Bayesian explanations have swept through cognitive science over the past two decades, from intuitive...
Bayesian theories of cognition assume that people can integrate probabilities rationally. However, s...
Bayesian probability problems are notoriously difficult for people to solve accurately. Base rate ne...
Bayesian models of human learning are becoming increasingly popular in cognitive science. We argue t...
Bayesian theories of cognition assume that people can integrate probabilities rationally. However, s...
In this article, I will show how several observed biases in human probabilistic reasoning can be par...
We confess that the first part of our title is somewhat of a misnomer. Bayesian reasoning is a norma...
People often confront Bayesian reasoning problems and make decisions under uncertainty in daily life...
We examined the conditions under which sampling information from different probability distributions...
The brain must make inferences about, and decisions concerning, a highly complex and unpredictable w...
Citation: Brase, G. L., & Hill, W. T. (2015). Good fences make for good neighbors but bad science: a...
Bayesian cognitive science sees the mind as a spectacular probabilistic inference machine. But Judgm...
Normative models of decision-making that optimally transform noisy (sensory) information into catego...
Bayesian explanations have swept through cognitive science over the past two decades, from intuitive...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Brain and Cognitive Sciences, 2010....
Bayesian explanations have swept through cognitive science over the past two decades, from intuitive...
Bayesian theories of cognition assume that people can integrate probabilities rationally. However, s...
Bayesian probability problems are notoriously difficult for people to solve accurately. Base rate ne...
Bayesian models of human learning are becoming increasingly popular in cognitive science. We argue t...
Bayesian theories of cognition assume that people can integrate probabilities rationally. However, s...
In this article, I will show how several observed biases in human probabilistic reasoning can be par...
We confess that the first part of our title is somewhat of a misnomer. Bayesian reasoning is a norma...
People often confront Bayesian reasoning problems and make decisions under uncertainty in daily life...
We examined the conditions under which sampling information from different probability distributions...
The brain must make inferences about, and decisions concerning, a highly complex and unpredictable w...
Citation: Brase, G. L., & Hill, W. T. (2015). Good fences make for good neighbors but bad science: a...