In this study, generation of the transient evoked ooacoustic emissions in human ear has been simulated using a new electroacoustic model. The method of state variables was adopted to calculate the auditory model, and numerical integration methods have been used to solve differential equations in Matlab. Simulation results have been compared with the real data. In this study, latency curves, frequency spectrum of the simulated TEOAE and calculation errors were used to validate of the model. The results of this research show that simulated outputs are similar to clinical data.
shamekhi,S. , Miranbeigi,M. H. and Abolhassani,M. J. (2010). Modeling of Otoacoustic Emission Signal Generation in Human Air. The Modares Journal of Electrical Engineering, 10(1), 1-11.
MLA
shamekhi,S. , Miranbeigi,M. H. , and Abolhassani,M. J. . "Modeling of Otoacoustic Emission Signal Generation in Human Air", The Modares Journal of Electrical Engineering, 10, 1, 2010, 1-11.
HARVARD
shamekhi,S.,Miranbeigi,M. H.,Abolhassani,M. J. (2010). 'Modeling of Otoacoustic Emission Signal Generation in Human Air', The Modares Journal of Electrical Engineering, 10(1), pp. 1-11.
CHICAGO
S. shamekhi, M. H. Miranbeigi and M. J. Abolhassani, "Modeling of Otoacoustic Emission Signal Generation in Human Air," The Modares Journal of Electrical Engineering, 10 1 (2010): 1-11,
VANCOUVER
shamekhi,S.,Miranbeigi,M. H.,Abolhassani,M. J. Modeling of Otoacoustic Emission Signal Generation in Human Air. The Modares Journal of Electrical Engineering, 2010; 10(1): 1-11.
The Modares Journal of Electrical Engineering