Affiliation:
1. Department of Electrical and Computer Engineering, McMaster University Hamilton, Ontario L85 4k1, Canada,
2. Department of Psychology, McMaster University Hamilton, Ontario L85 4k1, Canada,
Abstract
We propose a novel model-based hearing compensation strategy and gradient-free optimization procedure for a learning-based hearing aid design. Motivated by physiological data and normal and impaired auditory nerve models, a hearing compensation strategy is cast as a neural coding problem, and a Neurocompensator is designed to compensate for the hearing loss and enhance the speech. With the goal of learning the Neurocompensator parameters, we use a gradient-free optimization procedure, an improved version of the ALOPEX that we have developed (Haykin, Chen, & Becker, 2004), to learn the unknown parameters of the Neurocompensator. We present our methodology, learning procedure, and experimental results in detail; discussion is also given regarding the unsupervised learning and optimization methods.
Subject
Cognitive Neuroscience,Arts and Humanities (miscellaneous)
Cited by
6 articles.
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