Song Joo-Hyun
Department of Cognitive, Linguistic and Psychological Sciences, Brown University, PO Box 1821, Providence, RI 02912, USA
Philos Trans R Soc Lond B Biol Sci. 2017 Apr 19;372(1718). doi: 10.1098/rstb.2016.0195.
Visual scenes are often complex and crowded with many different objects. To interact effectively, we must choose one object at a time as a goal for action. Certain cues can act as a stop signal, quickly cancelling an ongoing action. Less recognized are signals. These can come from recent experience, anticipated action outcomes, cognitive states, and when attention is captured by a salient object. These signals elevate one action plan over alternatives and can quickly modify an initial choice. Here, we focus on these internal processes responsible for selecting, abandoning and modifying action plans. We first highlight how the brain resolves competition among multiple action plans. Critical is the existence of parallel motor planning processes, which allow efficient and timely changes. Then, we discuss how the action system interplays with perception, attention and memory processes to bias action selection and suppress or modify erroneous selections. Subsequently, we show how tracking the continuous modification of action trajectories can provide a tool to read out changes in internal cognitive states. Taken together, we shed light on a broader view that sensorimotor networks can continuously modify actions through simultaneous evaluation of alternative activities in concert with widely distributed perceptual and cognitive networks.This article is part of the themed issue 'Movement suppression: brain mechanisms for stopping and stillness'.
视觉场景通常很复杂,充斥着许多不同的物体。为了有效地进行互动,我们必须一次选择一个物体作为行动目标。某些线索可以充当停止信号,迅速取消正在进行的行动。人们对信号的认识较少。这些信号可以来自近期的经验、预期的行动结果、认知状态,以及当注意力被一个突出的物体吸引时。这些信号会使一个行动计划比其他计划更具优势,并能迅速改变最初的选择。在这里,我们关注这些负责选择、放弃和修改行动计划的内部过程。我们首先强调大脑如何解决多个行动计划之间的竞争。关键在于并行运动规划过程的存在,这使得能够进行高效及时的改变。然后,我们讨论行动系统如何与感知、注意力和记忆过程相互作用,以偏向行动选择并抑制或修改错误的选择。随后,我们展示了跟踪行动轨迹的持续修改如何能够提供一种工具来解读内部认知状态的变化。总的来说,我们揭示了一个更广泛的观点,即感觉运动网络可以通过与广泛分布的感知和认知网络协同评估替代活动来持续修改行动。本文是主题为“运动抑制:大脑停止和静止的机制”特刊的一部分。