具有多个备选方案的决策

Decision-making with multiple alternatives.

作者信息

Churchland Anne K, Kiani Roozbeh, Shadlen Michael N

机构信息

Howard Hughes Medical Institute, Department of Physiology and Biophysics, National Primate Research Center, University of Washington Medical School, Seattle, Washington 98195, USA.

出版信息

Nat Neurosci. 2008 Jun;11(6):693-702. doi: 10.1038/nn.2123. Epub 2008 May 18.

DOI:10.1038/nn.2123

PMID:18488024

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2453226/

Abstract

Simple perceptual tasks have laid the groundwork for understanding the neurobiology of decision-making. Here, we examined this foundation to explain how decision-making circuitry adjusts in the face of a more difficult task. We measured behavioral and physiological responses of monkeys on a two- and four-choice direction-discrimination decision task. For both tasks, firing rates in the lateral intraparietal area appeared to reflect the accumulation of evidence for or against each choice. Evidence accumulation began at a lower firing rate for the four-choice task, but reached a common level by the end of the decision process. The larger excursion suggests that the subjects required more evidence before making a choice. Furthermore, on both tasks, we observed a time-dependent rise in firing rates that may impose a deadline for deciding. These physiological observations constitute an effective strategy for handling increased task difficulty. The differences appear to explain subjects' accuracy and reaction times.

摘要

简单的感知任务为理解决策的神经生物学奠定了基础。在此，我们审视这一基础，以解释决策神经回路在面对更具挑战性的任务时是如何调整的。我们测量了猴子在二选一和四选一方向辨别决策任务中的行为和生理反应。对于这两项任务，顶内沟外侧区域的放电率似乎反映了支持或反对每个选择的证据积累情况。在四选一任务中，证据积累开始时的放电率较低，但在决策过程结束时达到了相同水平。更大的变化幅度表明，受试者在做出选择之前需要更多的证据。此外，在这两项任务中，我们都观察到放电率随时间上升，这可能为决策设定了最后期限。这些生理观察结果构成了应对任务难度增加的有效策略。这些差异似乎可以解释受试者的准确性和反应时间。

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