Add to ORKGAbstract: Wave propagation in the mammalian cochlea (inner ear) is modeled as a unidirectional cascade of simple filters. The transfer functions of the low-order filter stages are completely determined by the wave-number vs. frequency solutions to the dispersion relations that describe the cochlea, which are in turn derived from two-dimensional approximations to the fluid mechanics. Active undamping effects of the outer hair cells are easily included in the analysis and modeling, so that the results can be directly applied in the design of active adaptive cochlear models
A discrete model of cochlear mechanics is introduced that includes a full, three-dimensional, descri...
The function of the cochlea is to convert the sound waves that reach our ears into neural signals th...
AbstractAccording to the generally accepted theory of mammalian cochlear mechanics, the fluid in the...
Wave propagation in the mammalian cochlea (inner ear) is modeled as a unidirectional cascade of simp...
Wave propagation in the cochlea can be modeled at various levels and for vari-ous purposes. We are i...
An active mechanism, the cochlear amplifier, enhances the response of the cochlea to low-level stimu...
Several deficiencies affecting previous ''box'' models of the cochlea are overcome in this paper. Bo...
The cochlea plays an important role in human hearing. Its basic function is to map sounds of differe...
The mammalian inner ear is a sensory system with high sensitivity and sharp tuning in response to lo...
Thesis: Ph. D. in Biomedical Engineering, Harvard-MIT Program in Health Sciences and Technology, 201...
The cochlea plays a crucial role in mammal hearing. The basic function of the cochlea is to map soun...
A computational framework for cochlear system modeling is developed. It includes a hybrid finite ele...
The wave finite element method has previously been used to understand the various types of wave in a...
The mammalian cochlea achieves its remarkable sensitivity, frequency selectivity, and dynamic range ...
HTML or similar not available MenuWelcA model of the cochlear amplifier has recently been proposed, ...
A discrete model of cochlear mechanics is introduced that includes a full, three-dimensional, descri...
The function of the cochlea is to convert the sound waves that reach our ears into neural signals th...
AbstractAccording to the generally accepted theory of mammalian cochlear mechanics, the fluid in the...
Wave propagation in the mammalian cochlea (inner ear) is modeled as a unidirectional cascade of simp...
Wave propagation in the cochlea can be modeled at various levels and for vari-ous purposes. We are i...
An active mechanism, the cochlear amplifier, enhances the response of the cochlea to low-level stimu...
Several deficiencies affecting previous ''box'' models of the cochlea are overcome in this paper. Bo...
The cochlea plays an important role in human hearing. Its basic function is to map sounds of differe...
The mammalian inner ear is a sensory system with high sensitivity and sharp tuning in response to lo...
Thesis: Ph. D. in Biomedical Engineering, Harvard-MIT Program in Health Sciences and Technology, 201...
The cochlea plays a crucial role in mammal hearing. The basic function of the cochlea is to map soun...
A computational framework for cochlear system modeling is developed. It includes a hybrid finite ele...
The wave finite element method has previously been used to understand the various types of wave in a...
The mammalian cochlea achieves its remarkable sensitivity, frequency selectivity, and dynamic range ...
HTML or similar not available MenuWelcA model of the cochlear amplifier has recently been proposed, ...
A discrete model of cochlear mechanics is introduced that includes a full, three-dimensional, descri...
The function of the cochlea is to convert the sound waves that reach our ears into neural signals th...
AbstractAccording to the generally accepted theory of mammalian cochlear mechanics, the fluid in the...