A two-degrees-of-freedom nonlinear cochlear model [Sisto, Shera, Altoè, and Moleti (2019). J. Acoust. Soc. Am. 146, 1685–1695] correctly predicts that the reticular lamina response is nonlinear over a wide basal region. Numerical simulations of suppression tuning curves agree with a recent experiment [Dewey, Applegate, and Oghalai (2019). J. Neurosci. 39, 1805–1816], supporting the idea that the strong susceptibility of the reticular lamina response to suppression by high-frequency tones does not imply that the total traveling wave energy builds-up in correspondingly basal regions. This happens because the reticular lamina is the lightest element of a coupled-oscillators system, only indirectly coupled to the differential pressure.

中文翻译：

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两自由度非线性耳蜗模型中的抑制调整曲线。

两自由度非线性耳蜗模型[Sisto，Shera，Altoè和Moleti（2019）。J. Acoust。Soc。上午。[ 146，1685–1695]正确预测网状层板反应在广泛的基底区域内是非线性的。抑制调谐曲线的数值模拟与最近的实验一致[Dewey，Applegate和Oghalai（2019）。J.神经科学。39，1805年至一八一六年]，支持的想法，通过高频音调的网状薄片响应于抑制的强易感性并不意味着总行波能量建立向上在相应基部的区域。发生这种情况是因为网状薄片是耦合振荡器系统中最轻的元件，仅间接耦合至压差。