We present empirical evidence that human reasoning follows the rules of probability theory, if information is presented in “natural formats”. Human reasoning has often been evaluated in terms of humans’ ability to deal with probabilities. Yet, in nature we do not observe probabilities, we rather count samples and their subsets. Our concept of Markov frequencies generalizes Gigerenzer and Hoffrage’s “natural frequencies”, which are known to foster insight in Bayesian situations with one cue. Markov frequencies allow to visualize Bayesian inference problems even with an arbitrary number of cues
We confess that the first part of our title is somewhat of a misnomer. Bayesian reasoning is a norma...
Two experiments examined the effect of frequency formats on Bayesian reasoning. In each experiment a...
This article analyzes the leading theoretical approaches to Bayesian reasoning in the literature, an...
Is the mind, by design, predisposed against performing Bayesian inference? Previous research on base...
notoriously difficult for laypeople to solve using base rates, hit rates, and false-alarm rates, bec...
G. Gigerenzer and U. Hoffrage (1995) suggested that formulating problems in frequentistic terms woul...
In this article, I will show how several observed biases in human probabilistic reasoning can be par...
Representing statistical information in terms of natural frequencies rather than probabilities impro...
International audienceDo individuals unfamiliar with probability and statistics need a specific type...
Experts' and laypeople's reasoning in Bayesian-type problems can be improved by representing informa...
The Bayesian theorem was formulated in the 18th century and has been adopted as the theoretical basi...
Three experiments examined people's ability to incorporate base rate information when judging p...
Instead of subscribing to the view that people are unable to perform Bayesian probabilistic inferen...
International audienceIs the human mind inherently unable to reason probabilistically, or is it able...
Instead of subscribing to the view that people are unable to perform Bayesian probabilistic inferenc...
We confess that the first part of our title is somewhat of a misnomer. Bayesian reasoning is a norma...
Two experiments examined the effect of frequency formats on Bayesian reasoning. In each experiment a...
This article analyzes the leading theoretical approaches to Bayesian reasoning in the literature, an...
Is the mind, by design, predisposed against performing Bayesian inference? Previous research on base...
notoriously difficult for laypeople to solve using base rates, hit rates, and false-alarm rates, bec...
G. Gigerenzer and U. Hoffrage (1995) suggested that formulating problems in frequentistic terms woul...
In this article, I will show how several observed biases in human probabilistic reasoning can be par...
Representing statistical information in terms of natural frequencies rather than probabilities impro...
International audienceDo individuals unfamiliar with probability and statistics need a specific type...
Experts' and laypeople's reasoning in Bayesian-type problems can be improved by representing informa...
The Bayesian theorem was formulated in the 18th century and has been adopted as the theoretical basi...
Three experiments examined people's ability to incorporate base rate information when judging p...
Instead of subscribing to the view that people are unable to perform Bayesian probabilistic inferen...
International audienceIs the human mind inherently unable to reason probabilistically, or is it able...
Instead of subscribing to the view that people are unable to perform Bayesian probabilistic inferenc...
We confess that the first part of our title is somewhat of a misnomer. Bayesian reasoning is a norma...
Two experiments examined the effect of frequency formats on Bayesian reasoning. In each experiment a...
This article analyzes the leading theoretical approaches to Bayesian reasoning in the literature, an...