Abstract Models of the human auditory periphery range from very basic functional
descriptions of auditory filtering to detailed computational models of cochlear mechanics …

The cochlea plays a crucial role in mammal hearing. The basic function of the cochlea is to
map sounds of different frequencies onto corresponding characteristic positions on the …

This paper describes the implementation and performance of a nonlinear time-domain
model of the cochlea for transient stimulation and human otoacoustic emission generation …

A model of the cochlea was used to bridge the gap between model approaches commonly
used to investigate phenomena related to otoacoustic emissions and more filter-based …

This paper discusses the role of two-dimensional (2-D)/three-dimensional (3-D) cochlear
fluid hydrodynamics in the generation of the large nonlinear dynamical range of the basilar …

The input/output functions of the different-latency components of human transient-evoked
and stimulus-frequency otoacoustic emissions are analyzed, with the goal of relating them to …

Time-domain numerical solutions of a nonlinear active cochlear model forced by click stimuli
are analyzed with a time-frequency wavelet technique to identify the components of the …

In this paper, a state-space implementation of a previously developed frequency-domain
model of the cochlea is coupled to a lumped parameter model of the middle ear. After …

The zero crossings of basilar-membrane (BM) responses to clicks are nearly independent of
stimulus intensity. This work explores the constraints that this invariance imposes on one …

Measurements of basilar-membrane (BM) motion show that the compressive nonlinearity of
cochlear mechanical responses is not an instantaneous phenomenon. For this reason, the …