A nonlinear active feed-forward/feed-backward mechanism exciting the basilar membrane (through the activity of the outer hair cells) has been highlighted in previous works as responsible for remarkable amplification in the cochlea. A saturation phenomenon in the transduction process has further been pointed out as a significant nonlinear feature. In this work, a candidate nonlinearity is accounted for through the stretching effect in a one-dimensional string model of the basilar membrane. An asymptotic treatment of the partial differential equations of motion-including the space-delayed terms represented by the feed-forward and feed-backward outer hair cells forces-shows some properties of the nonlinear vibrational behavior of the basilar membrane which may pave the way to understanding some experimentally observed nonlinear features. © Springer Science + Business Media B.V. 2011.
Nonlinear wave propagation in the cochlea with feed-forward and feed-backward / Lacarbonara, Walter; Charles R., Steele. - STAMPA. - 30(2011), pp. 165-175. ((Intervento presentato al convegno IUTAM Symposium on Multibody Dynamics and Interaction Control in Virtual and Real Environments tenutosi a Budapest nel 7 June 2010 through 11 June 2010. - IUTAM BOOKSERIES. [10.1007/978-94-007-1643-8_19].
Nonlinear wave propagation in the cochlea with feed-forward and feed-backward
LACARBONARA, Walter;
2011
Abstract
A nonlinear active feed-forward/feed-backward mechanism exciting the basilar membrane (through the activity of the outer hair cells) has been highlighted in previous works as responsible for remarkable amplification in the cochlea. A saturation phenomenon in the transduction process has further been pointed out as a significant nonlinear feature. In this work, a candidate nonlinearity is accounted for through the stretching effect in a one-dimensional string model of the basilar membrane. An asymptotic treatment of the partial differential equations of motion-including the space-delayed terms represented by the feed-forward and feed-backward outer hair cells forces-shows some properties of the nonlinear vibrational behavior of the basilar membrane which may pave the way to understanding some experimentally observed nonlinear features. © Springer Science + Business Media B.V. 2011.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
