始祖龙鼓室反应的有效-弹簧模型

David T. Heider, J. van Hemmen
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引用次数: 1

摘要

而对于较小的动物来说,耳膜的特征是可兴奋的膜或鼓,一些动物,如几种始龙,作为第一个近似,具有相当坚硬的弹性壳,由弹性环支撑。在数学上,板壳理论是适用的,但其控制方程使建模过于复杂。在这里,鼓膜结构的概念是作为“普通”鼓膜的概括而引入的,以便解释在诸如鸟类和鳄鱼等始祖恐龙中发生的声音感知。许多祖龙鼓室结构的数学模型称为双弹簧模型实现了这一概念。该模型是完全可溶的,解以封闭形式和级数展开式表示。特别强调的是提供一个易于应用的模型来描述实验和进行数值研究。通过讨论双弹簧模型在听觉研究中的适用性,补充了分析处理。在附录中给出了双弹簧模型的弹性理论视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effective-Spring Model of Tympanic Response in Archosaurs
Whereas for smaller animals the eardrums are well-characterized as excitable membranes or drums, some animals such as several archosaurs feature, as a first approximation, a rather stiff elastic shell supported by an elastic ring. Mathematically, the theory of plates and shells is applicable but its governing equations overly complicate the modeling. Here the notion of tympanic structure is introduced as a generalization of “ordinary” tympanic membranes so as to account for sound perception as it occurs in archosaurs, such as birds and crocodilians. A mathematical model for the tympanic structure in many archosaurs called two-spring model implements this notion. The model is exactly soluble and solutions are presented in closed form and as a series expansion. Special emphasis is put onto offering an easy-to-apply model for describing experiments and performing numerical studies. The analytic treatment is supplemented by a discussion of the applicability of the two-spring model in auditory research. An elasticity-theoretic perspective of the two-spring model is given in the Appendix.
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