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Predicting the threshold of single-pulse electrical stimuli using a stochastic auditory nerve model: the effects of noise.

Publication ,  Journal Article
Xu, Y; Collins, LM
Published in: IEEE transactions on bio-medical engineering
July 2003

An important factor that may play a role in speech recognition by individuals with cochlear implants is that electrically stimulated nerves respond with a much higher level of synchrony than is normally observed in acoustically stimulated nerves. Recent work has indicated that the addition of noise to an electrical stimulus may result in neural responses whose statistical characteristics are more similar to those observed in acoustically driven neurons. Psychophysical data have indicated that performance on some tasks might also be enhanced by the addition of noise. However, little theoretical work has been done toward predicting the effect of noise on psychoacoustic measurements. In this paper, theoretical predictions of these effects are developed through the use of a stochastic computational model. The effect of additive noise on the input and output characteristics and aggregate threshold behavior of modeled auditory nerves (ANs) is specifically studied. This paper derives the stochastic properties of the model input and output when using adaptive threshold procedures. A closed form solution for the input, or amplitude, probability distribution is obtained via Markov models for both one-down one-up (1D1U) and two-down one-up (2D1U) experimental paradigms. The output statistics are derived by integrating over the noise-free probability mass function (PMF). All theoretical PMFs are verified by simulations with the model. Theoretical threshold is predicted as a function of noise level based on these PMFs and the predictions match simulated performance. The results indicate that threshold may be adversely affected by the presence of high levels of noise.

Duke Scholars

Published In

IEEE transactions on bio-medical engineering

DOI

EISSN

1558-2531

ISSN

0018-9294

Publication Date

July 2003

Volume

50

Issue

7

Start / End Page

825 / 835

Related Subject Headings

  • Stochastic Processes
  • Signal Detection, Psychological
  • Sensitivity and Specificity
  • Normal Distribution
  • Noise
  • Nerve Net
  • Models, Statistical
  • Models, Neurological
  • Humans
  • Hearing
 

Citation

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Xu, Y., & Collins, L. M. (2003). Predicting the threshold of single-pulse electrical stimuli using a stochastic auditory nerve model: the effects of noise. IEEE Transactions on Bio-Medical Engineering, 50(7), 825–835. https://doi.org/10.1109/tbme.2003.813542
Xu, Yifang, and Leslie M. Collins. “Predicting the threshold of single-pulse electrical stimuli using a stochastic auditory nerve model: the effects of noise.IEEE Transactions on Bio-Medical Engineering 50, no. 7 (July 2003): 825–35. https://doi.org/10.1109/tbme.2003.813542.
Xu Y, Collins LM. Predicting the threshold of single-pulse electrical stimuli using a stochastic auditory nerve model: the effects of noise. IEEE transactions on bio-medical engineering. 2003 Jul;50(7):825–35.
Xu, Yifang, and Leslie M. Collins. “Predicting the threshold of single-pulse electrical stimuli using a stochastic auditory nerve model: the effects of noise.IEEE Transactions on Bio-Medical Engineering, vol. 50, no. 7, July 2003, pp. 825–35. Epmc, doi:10.1109/tbme.2003.813542.
Xu Y, Collins LM. Predicting the threshold of single-pulse electrical stimuli using a stochastic auditory nerve model: the effects of noise. IEEE transactions on bio-medical engineering. 2003 Jul;50(7):825–835.

Published In

IEEE transactions on bio-medical engineering

DOI

EISSN

1558-2531

ISSN

0018-9294

Publication Date

July 2003

Volume

50

Issue

7

Start / End Page

825 / 835

Related Subject Headings

  • Stochastic Processes
  • Signal Detection, Psychological
  • Sensitivity and Specificity
  • Normal Distribution
  • Noise
  • Nerve Net
  • Models, Statistical
  • Models, Neurological
  • Humans
  • Hearing