Nelken Israel, Bizley Jennifer, Shamma Shihab A, Wang Xiaoqin
Department of Neurobiology, the Silberman Institute of Life Sciences, and the Edmond and Lily Safra Center for Brain Sciences, Hebrew University, Jerusalem 91904, Israel,
Ear Institute, University College London, London, WC1X 8EE, United Kingdom.
J Neurosci. 2014 Nov 12;34(46):15135-8. doi: 10.1523/JNEUROSCI.2989-14.2014.
The auditory sense of humans transforms intrinsically senseless pressure waveforms into spectacularly rich perceptual phenomena: the music of Bach or the Beatles, the poetry of Li Bai or Omar Khayyam, or more prosaically the sense of the world filled with objects emitting sounds that is so important for those of us lucky enough to have hearing. Whereas the early representations of sounds in the auditory system are based on their physical structure, higher auditory centers are thought to represent sounds in terms of their perceptual attributes. In this symposium, we will illustrate the current research into this process, using four case studies. We will illustrate how the spectral and temporal properties of sounds are used to bind together, segregate, categorize, and interpret sound patterns on their way to acquire meaning, with important lessons to other sensory systems as well.
巴赫或披头士乐队的音乐、李白或奥马尔·海亚姆的诗歌,或者更通俗地说,对于我们这些有幸拥有听力的人而言至关重要的、充满发出声音物体的世界感。虽然听觉系统中声音的早期表征基于其物理结构,但较高层次的听觉中枢被认为是根据声音的感知属性来表征声音的。在本次研讨会上,我们将通过四个案例研究来说明目前对这一过程的研究。我们将说明声音的频谱和时间特性如何在获取意义的过程中被用于将声音模式绑定在一起、进行分离、分类和解释,这对其他感觉系统也有重要启示。