机械和机电箱耳蜗模型

IF 0.5 Q4 ENGINEERING, MULTIDISCIPLINARY

Journal of the Serbian Society for Computational Mechanics Pub Date : 2014-01-01 DOI:10.5937/JSSCM1402029N

Milica G. Nikolić, V. Isailović, D. Nikolić, I. Šaveljić, Z. Milosevic, Milos D. Radovic, S. Semmelbauer, F. Böhnke, N. Filipovic

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引用次数: 0

摘要

耳蜗是听觉系统中最重要的部分，因为它以振动的形式接收声音，并将这些振动转化为Corti器官中的神经冲动，将声音信息发送到大脑。由于耳蜗结构复杂，其功能和行为尚未完全研究。活体耳蜗被放置在几乎无法接近的地方。因此，很难收集实验测量数据。耳蜗是一个机电系统，研究耳蜗的电气和机械行为对改善听力障碍的治疗具有重要意义。本研究采用全三维8节点有限元方法建立了耳蜗的力学模型，并建立了耳蜗的机电一维状态空间模型。这两种耳蜗模型的模拟结果与Greenwood函数吻合较好，能较好地模拟耳蜗的行为。

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Mechanical and electro-mechanical box cochlea model

The cochlea is the most important part of the hearing system, due to the fact that it receives sound in the form of vibrations and converts these vibrations into nerve impulses in the organ of Corti that sends information about sounds to the brain. Functioning of the cochlea components and behavior is still not investigated completely because of its complex structure. Human live cochlea is placed in almost inaccessible place. Because of that it is hard to collect experimental measurement. Cochlea works as an electro–mechanical system and it is important to investigate both electrical and mechanical behavior of the cochlea in order to improve treatment of hearing disorders. This study presents a mechanical model of the uncoiled cochlea using full 3D 8-noded finite elements, as well the electro–mechanical 1D state–space model of the cochlea. The results obtained from these two cochlea models show good matching with Greenwood function and properly simulate the behavior of the cochlea.

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来源期刊

Journal of the Serbian Society for Computational Mechanics ENGINEERING, MULTIDISCIPLINARY-

CiteScore

0.90

自引率

0.00%

发文量