Department of Psychology, Northwestern University, Evanston, IL 60208, USA.
Curr Biol. 2012 Mar 6;22(5):383-8. doi: 10.1016/j.cub.2012.01.004. Epub 2012 Feb 9.
Spatial frequency is a fundamental visual feature coded in primary visual cortex, relevant for perceiving textures, objects, hierarchical structures, and scenes, as well as for directing attention and eye movements. Temporal amplitude-modulation (AM) rate is a fundamental auditory feature coded in primary auditory cortex, relevant for perceiving auditory objects, scenes, and speech. Spatial frequency and temporal AM rate are thus fundamental building blocks of visual and auditory perception. Recent results suggest that crossmodal interactions are commonplace across the primary sensory cortices and that some of the underlying neural associations develop through consistent multisensory experience such as audio-visually perceiving speech, gender, and objects. We demonstrate that people consistently and absolutely (rather than relatively) match specific auditory AM rates to specific visual spatial frequencies. We further demonstrate that this crossmodal mapping allows amplitude-modulated sounds to guide attention to and modulate awareness of specific visual spatial frequencies. Additional results show that the crossmodal association is approximately linear, based on physical spatial frequency, and generalizes to tactile pulses, suggesting that the association develops through multisensory experience during manual exploration of surfaces.
空间频率是初级视觉皮层中编码的基本视觉特征,与感知纹理、物体、层次结构和场景有关,也与引导注意力和眼球运动有关。时间幅度调制 (AM) 率是初级听觉皮层中编码的基本听觉特征,与感知听觉物体、场景和语音有关。因此,空间频率和时间 AM 率是视觉和听觉感知的基本组成部分。最近的结果表明,跨模态相互作用在主要感觉皮层中很常见,并且一些潜在的神经关联是通过一致的多感觉经验发展起来的,例如视听感知语音、性别和物体。我们证明,人们一致且绝对(而不是相对)将特定的听觉 AM 率与特定的视觉空间频率匹配。我们进一步证明,这种跨模态映射允许调幅声音引导注意力并调节对特定视觉空间频率的意识。其他结果表明,基于物理空间频率,跨模态关联近似线性,并推广到触觉脉冲,这表明该关联是通过手动探索表面时的多感觉经验发展起来的。