Katshu Mohammad Zia Ul Haq, d'Avossa Giovanni
School of Psychology and Wolfson Centre for Clinical and Cognitive Neuroscience, Bangor University, Bangor, United Kingdom; Division of Psychiatry and Applied Psychology, Institute of Mental Health, University of Nottingham, Nottingham, United Kingdom.
School of Psychology and Wolfson Centre for Clinical and Cognitive Neuroscience, Bangor University, Bangor, United Kingdom.
PLoS One. 2014 Sep 26;9(9):e107969. doi: 10.1371/journal.pone.0107969. eCollection 2014.
While sensory processes are tuned to particular features, such as an object's specific location, color or orientation, visual working memory (vWM) is assumed to store information using representations, which generalize over a feature dimension. Additionally, current vWM models presume that different features or objects are stored independently. On the other hand, configurational effects, when observed, are supposed to mainly reflect encoding strategies. We show that the location of the target, relative to the display center and boundaries, and overall memory load influenced recall precision, indicating that, like sensory processes, capacity limited vWM resources are spatially tuned. When recalling one of three memory items the target distance from the display center was overestimated, similar to the error when only one item was memorized, but its distance from the memory items' average position was underestimated, showing that not only individual memory items' position, but also the global configuration of the memory array may be stored. Finally, presenting the non-target items at recall, consequently providing landmarks and configurational information, improved precision and accuracy of target recall. Similarly, when the non-target items were translated at recall, relative to their position in the initial display, a parallel displacement of the recalled target was observed. These findings suggest that fine-grained spatial information in vWM is represented in local maps whose resolution varies with distance from landmarks, such as the display center, while coarse representations are used to store the memory array configuration. Both these representations are updated at the time of recall.
虽然感觉过程会针对特定特征进行调整,例如物体的特定位置、颜色或方向,但视觉工作记忆(vWM)被认为是使用在特征维度上具有通用性的表征来存储信息。此外,当前的vWM模型假定不同的特征或物体是独立存储的。另一方面,构型效应一旦被观察到,就被认为主要反映编码策略。我们发现,目标相对于显示中心和边界的位置以及整体记忆负荷会影响回忆精度,这表明,与感觉过程一样,容量有限的vWM资源在空间上是经过调整的。当回忆三个记忆项目中的一个时,目标到显示中心的距离被高估,这与只记忆一个项目时的误差相似,但目标到记忆项目平均位置的距离被低估,这表明不仅单个记忆项目的位置,而且记忆阵列的全局构型可能也被存储了。最后,在回忆时呈现非目标项目,从而提供地标和构型信息,提高了目标回忆的精度和准确性。同样,当非目标项目在回忆时相对于它们在初始显示中的位置进行平移时,观察到被回忆目标的平行位移。这些发现表明,vWM中的精细空间信息在局部地图中得到表征,其分辨率随与地标(如显示中心)的距离而变化,而粗糙表征则用于存储记忆阵列构型。这两种表征在回忆时都会更新。
