Thomas L. Griffiths, Jian-Qiao Zhu, Erin Grant, R. Thomas McCoy
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The success of methods based on artificial neural networks in creating intelligent machines seems like it might pose a challenge to explanations of human cognition in terms of Bayesian inference. We argue that this is not the case and that these systems in fact offer new opportunities for Bayesian modeling. Specifically, we argue that artificial neural networks and Bayesian models of cognition lie at different levels of analysis and are complementary modeling approaches, together offering a way to understand human cognition that spans these levels. We also argue that the same perspective can be applied to intelligent machines, in which a Bayesian approach may be uniquely valuable in understanding the behavior of large, opaque artificial neural networks that are trained on proprietary data.
期刊介绍:
Current Directions in Psychological Science publishes reviews by leading experts covering all of scientific psychology and its applications. Each issue of Current Directions features a diverse mix of reports on various topics such as language, memory and cognition, development, the neural basis of behavior and emotions, various aspects of psychopathology, and theory of mind. These articles allow readers to stay apprised of important developments across subfields beyond their areas of expertise and bodies of research they might not otherwise be aware of. The articles in Current Directions are also written to be accessible to non-experts, making them ideally suited for use in the classroom as teaching supplements.