A Novel Hardware-Efficient Cochlea Model Based on Asynchronous Cellular Automaton Dynamics: Theoretical Analysis and FPGA Implementation

Kentaro Takeda; Hiroyuki Torikai

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A Novel Hardware-Efficient Cochlea Model Based on Asynchronous Cellular Automaton Dynamics: Theoretical Analysis and FPGA Implementation

机译：基于异步细胞自动机动力学的新型硬件有效耳蜗模型：理论分析和FPGA实现

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A novel cochlear model based on the nonlinear dynamics of an asynchronous cellular automaton is presented. Theoretical bifurcation analyses show that the model can mimic a nonlinear vector field of a differential equation cochlea model. It is then shown that the presented model can reproduce biologically measured frequency tuning curves of multiple species. In addition, the presented model is implemented in a field programmable gate array and experiments validate reproductions of the biological tuning curves. It is also shown that the presented model can be implemented by fewer hardware resources as compared to the differential equation cochlea model.

机译：提出了一种基于异步细胞自动机非线性动力学的新型耳蜗模型。理论分叉分析表明，该模型可以模拟微分方程式耳蜗模型的非线性矢量场。然后表明，所提出的模型可以再现多种物种的生物测量的频率调谐曲线。另外，所提出的模型在现场可编程门阵列中实现，并且实验验证了生物调谐曲线的再现。还表明，与微分方程式耳蜗模型相比，可以通过较少的硬件资源来实现所提出的模型。

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《IEEE transactions on circuits and systems. II, Express briefs》 |2017年第9期|1107-1111|共5页
作者
Kentaro Takeda; Hiroyuki Torikai;
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作者单位

Graduate School of Frontier Informatics, Kyoto Sangyo University, Kyoto, Japan;

Graduate School of Frontier Informatics, Kyoto Sangyo University, Kyoto, Japan;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Biological system modeling; Mathematical model; Integrated circuit modeling; Analytical models; Numerical models; Tuning; Bifurcation;

机译：生物系统建模;数学模型;集成电路建模;分析模型;数值模型;调谐;分叉;

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A Novel Hardware-Efficient Cochlea Model Based on Asynchronous Cellular Automaton Dynamics: Theoretical Analysis and FPGA Implementation

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