A comprehensive three-dimensional model of the cochlea
نویسندگان
چکیده
منابع مشابه
A comprehensive three - dimensional model of the cochlea q
The human cochlea is a remarkable device, able to discern extremely small amplitude sound pressure waves, and discriminate between very close frequencies. Simulation of the cochlea is computationally challenging due to its complex geometry, intricate construction and small physical size. We have developed, and are continuing to refine, a detailed three-dimensional computational model based on a...
متن کاملA Comprehensive Three-Dimensional Model of the Cochlea
The human cochlea is a remarkable device, able to discern extremely small amplitude sound pressure waves, and discriminate between very close frequencies. Simulation of the cochlea is computationally challenging due to its complex geometry, intricate construction and small physical size. We have developed, and are continuing to refine, a detailed three-dimensional computational model based on a...
متن کاملJa n 20 03 A Comprehensive Three - Dimensional Model of the Cochlea ⋆
The human cochlea is a remarkable device, able to discern extremely small amplitude sound pressure waves, and discriminate between very close frequencies. Simulation of the cochlea is computationally challenging due to its complex geometry, intricate construction and small physical size. We have developed, and are continuing to refine, a detailed three-dimensional computational model based on a...
متن کاملA Comprehensive Three-Dimensional Model
The human cochlea is a remarkable device, able to discern extremely small amplitude sound pressure waves, and discriminate between very close frequencies. Simulation of the cochlea is computationally challenging due to its complex geometry, intricate construction and small physical size. We have developed, and are continuing to re ne, a detailed three-dimensional computational model based on an...
متن کاملComputational experiments with a three- dimensional model of the Cochlea
We present results from a series of compute-intensive simulation experiments employing a realistic and detailed three-dimensional model of the human cochlear macro-mechanics. Our model uses the immersed boundary method to compute the fluid-structure interactions within the cochlea. It is a three-dimensional model based on an accurate cochlear geometry obtained from physical measurements. It inc...
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ژورنال
عنوان ژورنال: Journal of Computational Physics
سال: 2003
ISSN: 0021-9991
DOI: 10.1016/s0021-9991(03)00319-x