Department of Electrical and Computer Engineering, University of Connecticut, Storrs, CT 06269-1157, USA.
J Neurosci. 2010 Nov 24;30(47):15969-80. doi: 10.1523/JNEUROSCI.0966-10.2010.
The efficient-coding hypothesis asserts that neural and perceptual sensitivity evolved to faithfully represent biologically relevant sensory signals. Here we characterized the spectrotemporal modulation statistics of several natural sound ensembles and examined how neurons encode these statistics in the central nucleus of the inferior colliculus (CNIC) of cats. We report that modulation-tuning in the CNIC is matched to equalize the modulation power of natural sounds. Specifically, natural sounds exhibited a tradeoff between spectral and temporal modulations, which manifests as 1/f modulation power spectrum (MPS). Neural tuning was highly overlapped with the natural sound MPS and neurons approximated proportional resolution filters where modulation bandwidths scaled with characteristic modulation frequencies, a behavior previously described in human psychoacoustics. We demonstrate that this neural scaling opposes the 1/f scaling of natural sounds and enhances the natural sound representation by equalizing their MPS. Modulation tuning in the CNIC may thus have evolved to represent natural sound modulations in a manner consistent with efficiency principles and the resulting characteristics likely underlie perceptual resolution.
高效编码假说认为,神经和感知敏感性的进化是为了忠实地表示与生物相关的感觉信号。在这里,我们描述了几个自然声音集合的频谱和时变调制统计特性,并研究了在猫的下丘中央核(CNIC)中神经元如何对这些统计特性进行编码。我们报告说,CNIC 中的调制调谐与均衡自然声音的调制功率相匹配。具体来说,自然声音在光谱和时间调制之间存在权衡,表现为 1/f 调制功率谱(MPS)。神经调谐与自然声音 MPS 高度重叠,神经元近似于比例分辨率滤波器,其中调制带宽与特征调制频率成比例缩放,这种行为在人类心理声学中已有描述。我们证明,这种神经缩放与自然声音的 1/f 缩放相反,通过均衡它们的 MPS 来增强自然声音的表示。因此,CNIC 中的调制调谐可能是为了以符合效率原则的方式表示自然声音调制而进化的,并且由此产生的特征可能是感知分辨率的基础。