视觉外皮层错误警报的神经动力学基础

Bikash Sahoo, Adam Snyder
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摘要

神经群活动的展开可以近似为一个动态系统。表征神经群体活动的潜在动力学的稳定性与动物行为的一致性有关,例如运动控制或基于价值的决策。然而,人们对视觉皮层中的知觉活动和决策是否具有类似的动态特征还不甚了解。为了验证这一点,我们记录了参与非匹配到样本的视觉变化检测任务的猴子的 V4 群体,该任务需要持续参与。我们测量了 V4 潜在动态的稳定性如何影响猴子的感知行为。具体来说,我们的推论是,动态吸引子边界周围不稳定的感觉神经活动可能会使动物容易采取不正确的行动,而如果不采取行动则会是正确的("误报")。我们有三个重要发现:1)更高的稳定性与更长的试验序列有关;2)当神经动态更稳定时,误报率降低(反应时间减慢);3)低稳定性可预测单次试验水平上的误报,而且这种关系取决于试验过程中经过的时间,与接近吸引子边界的潜在神经状态一致。我们的研究结果表明,同样的外向假警报行为可归因于两种不同的潜在策略,通过研究神经稳定性可将其区分开来:1)有预谋的假警报,这可能会导致种群动态更稳定和反应时间更快;2)不稳定的感官活动导致的假警报,这与错误感知一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neural Dynamics Underlying False Alarms in Extrastriate Cortex
The unfolding of neural population activity can be approximated as a dynamical system. Stability in the latent dynamics that characterize neural population activity has been linked with consistency in animal behavior, such as motor control or value-based decision-making. However, whether similar dynamics characterize perceptual activity and decision-making in the visual cortex is not well understood. To test this, we recorded V4 populations in monkeys engaged in a non-match-to-sample visual change-detection task that required sustained engagement. We measured how the stability in the latent dynamics in V4 might affect monkeys' perceptual behavior. Specifically, we reasoned that unstable sensory neural activity around dynamic attractor boundaries may make animals susceptible to taking incorrect actions when withholding action would have been correct ("false alarms"). We made three key discoveries: 1) greater stability was associated with longer trial sequences; 2) false alarm rate decreased (and reaction times slowed) when neural dynamics were more stable; and, 3) low stability predicted false alarms on a single-trial level, and this relationship depended on the elapsed time during the trial, consistent with the latent neural state approaching an attractor boundary. Our results suggest the same outward false alarm behavior can be attributed to two different potential strategies that can be disambiguated by examining neural stability: 1) premeditated false alarms that might lead to greater stability in population dynamics and faster reaction time and 2) false alarms due to unstable sensory activity consistent with misperception.
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