在复杂动态环境中基于刺激驱动的视空间注意定向。
Stimulus-driven orienting of visuo-spatial attention in complex dynamic environments.
机构信息
Neuroimaging Laboratory, Santa Lucia Foundation, Rome, Italy.
出版信息
Neuron. 2011 Mar 10;69(5):1015-28. doi: 10.1016/j.neuron.2011.02.020.
Abstract
In everyday life attention operates within complex and dynamic environments, while laboratory paradigms typically employ simple and stereotyped stimuli. This fMRI study investigated stimulus-driven spatial attention using a virtual-environment video. We explored the influence of bottom-up signals by computing saliency maps of the environment and by introducing attention-grabbing events in the video. We parameterized the efficacy of these signals for the orienting of spatial attention by measuring eye movements and used these parameters to analyze the imaging data. The efficacy of bottom-up signals modulated ongoing activity in dorsal fronto-parietal regions and transient activation of the ventral attention system. Our results demonstrate that the combination of computational, behavioral, and imaging techniques enables studying cognitive functions in ecologically valid contexts. We highlight the central role of the efficacy of stimulus-driven signals in both dorsal and ventral attention systems, with a dissociation of the efficacy of background salience versus distinctive events in the two systems.
摘要
在日常生活中,注意力在复杂和动态的环境中运作,而实验室范式通常采用简单和刻板的刺激。这项 fMRI 研究使用虚拟现实视频探讨了受刺激驱动的空间注意力。我们通过计算环境的显着性图和在视频中引入引人注目的事件来探索自下而上信号的影响。我们通过测量眼球运动来参数化这些信号对空间注意力的定向作用,并使用这些参数来分析成像数据。自下而上信号的功效调节了背侧额顶叶区域的持续活动和腹侧注意系统的短暂激活。我们的结果表明,计算、行为和成像技术的结合能够在生态有效情境中研究认知功能。我们强调了刺激驱动信号在背侧和腹侧注意系统中的功效的核心作用,以及背景显着性和两个系统中独特事件的功效的分离。
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