Add to ORKGThis paper summarizes recent research on functions of the cochlea of the inner ear. The cochlea is described as the seat of the first step in the auditory sound analysis and transduction of mechanical vibration into electrochemical processes leading to the generation of neural action potentials. The cochlea is also described as a frequent seat of auditory disorders. This research summary addresses findings concerning: the classical model of cochlear functioning developed by ter Kuile and modified by H. Davis; explanations for the sharp tuning and great sensitivity of the auditory nerve fibers and inner hair cells; the role of the outer hair cells in cochlear acoustic emissions; contradictions of the classical model of hair cell stimulation ...
The intention of the research activity described in this thesis is to contribute to the dynamical th...
Most current theories of cochlear mechanics assume that the pattern of cochlear partition vibration ...
For over 50 years now, the propagation of travelling waves on the basilar membrane of the cochlea ha...
As sensory cells, hair cells within the mammalian inner ear convert sounds into receptor potentials ...
AbstractThe sensory epithelium of the mammalian inner ear contains two types of mechanosensory cells...
The sensory epithelium of the mammalian inner ear contains two types of mechanosensory cells:inner (...
In the process of sound reception, which we call "hearing", the cochlea plays an important role. In ...
Thesis (Ph.D.)--Boston UniversityPLEASE NOTE: Boston University Libraries did not receive an Authori...
Every day we are inundated with sounds, and we are able to separate noises into language, informatio...
Understanding how the cochlea works as a system has become increasingly important. We need to know t...
The cochlea, in the interior of the mammalian hearing organ, is where the transduction from sound in...
The finding of active function by the outer hair cells for sound processing prior to neural transduc...
The inner ear is our most sensitive sensory organ and can be subdivided into three functional units:...
Several observations have recently contributed significantly to our knowledge of the processes invol...
This Chapter presents a new physical model for signal processing phenomena (power amplification and ...
The intention of the research activity described in this thesis is to contribute to the dynamical th...
Most current theories of cochlear mechanics assume that the pattern of cochlear partition vibration ...
For over 50 years now, the propagation of travelling waves on the basilar membrane of the cochlea ha...
As sensory cells, hair cells within the mammalian inner ear convert sounds into receptor potentials ...
AbstractThe sensory epithelium of the mammalian inner ear contains two types of mechanosensory cells...
The sensory epithelium of the mammalian inner ear contains two types of mechanosensory cells:inner (...
In the process of sound reception, which we call "hearing", the cochlea plays an important role. In ...
Thesis (Ph.D.)--Boston UniversityPLEASE NOTE: Boston University Libraries did not receive an Authori...
Every day we are inundated with sounds, and we are able to separate noises into language, informatio...
Understanding how the cochlea works as a system has become increasingly important. We need to know t...
The cochlea, in the interior of the mammalian hearing organ, is where the transduction from sound in...
The finding of active function by the outer hair cells for sound processing prior to neural transduc...
The inner ear is our most sensitive sensory organ and can be subdivided into three functional units:...
Several observations have recently contributed significantly to our knowledge of the processes invol...
This Chapter presents a new physical model for signal processing phenomena (power amplification and ...
The intention of the research activity described in this thesis is to contribute to the dynamical th...
Most current theories of cochlear mechanics assume that the pattern of cochlear partition vibration ...
For over 50 years now, the propagation of travelling waves on the basilar membrane of the cochlea ha...