Abstract
Neuroscience Learning from direct experience is easy—we can always use trial and error—but how do we learn from nondirect (nonlocal) experiences? For this, we need additional mechanisms that bridge time and space. In rodents, hippocampal replay is hypothesized to promote this function. Liu et al. measured high-temporal-resolution brain signals using human magnetoencephalography combined with a new model-based, visually oriented, multipath reinforcement memory task. This task was designed to differentiate local versus nonlocal learning episodes within the subject. They found that reverse sequential replay in the human medial temporal lobe supports nonlocal reinforcement learning and is the underlying mechanism for solving complex credit assignment problems such as value learning. Science , abf1357, this issue p. [eabf1357][1] [1]: /lookup/doi/10.1126/science.abf1357
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