The neural and computational systems of social learning

Learning the value of stimuli and actions from others — social learning — adaptively contributes to individual survival and plays a key role in cultural evolution. We review research across species targeting the neural and computational systems of social learning in both the aversive and appetitive domains. Social learning generally follows the same principles as self-experienced value-based learning, including computations of prediction errors and is implemented in brain circuits activated across task domains together with regions processing social information. We integrate neural and computational perspectives of social learning with an understanding of behaviour of varying complexity, from basic threat avoidance to complex social learning strategies and cultural phenomena. Learning the value of stimuli and actions from others — social learning — is crucial for survival. In this review, Olsson, Knapska and Lindström discuss the neural and computational systems underlying social and self-experienced learning, and integrate this knowledge with behavioural phenomena of varying complexity.