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Related Experiment Video

Updated: May 15, 2026

Testing Tactile Masking between the Forearms
08:05

Testing Tactile Masking between the Forearms

Published on: February 10, 2016

Modeling within- and across-channel processes in comodulation masking release.

Torsten Dau1, Tobias Piechowiak, Stephan D Ewert

  • 1Centre for Applied Hearing Research, Department of Electrical Engineering, Technical University of Denmark, DK-2800 Kgs. Lyngby, Denmark. tdau@elektro.dtu.dk

The Journal of the Acoustical Society of America
|January 10, 2013
PubMed
Summary

This study explored auditory processing models to understand comodulation masking release (CMR). Findings reveal three key mechanisms, including within-channel and across-channel processes, contribute to CMR.

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Last Updated: May 15, 2026

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Area of Science:

  • Auditory Perception
  • Computational Auditory Modeling

Background:

  • Comodulation masking release (CMR) is crucial for understanding auditory perception.
  • Existing models provide a basis for investigating the mechanisms underlying CMR.

Purpose of the Study:

  • To investigate the relative contributions of within-channel and across-channel processes to CMR.
  • To extend the computational auditory signal processing and perception (CASP) model with an across-channel modulation processing stage.

Main Methods:

  • Utilized a generalized CASP model incorporating an extended across-channel modulation processing stage.
  • Examined five experimental paradigms manipulating masker characteristics and flanking bands (FBs).
  • Assessed CMR under varying masker spectrum levels, FB configurations, and frequencies relative to the on-frequency band (OFB).

Main Results:

  • Identified three distinct mechanisms contributing to CMR.
  • Mechanism 1: Within-channel process based on signal-induced envelope changes.
  • Mechanism 2: Within-channel process from nonlinear peripheral processing of the OFB envelope by FBs.
  • Mechanism 3: An across-channel process, robust but small (2-5 dB).

Conclusions:

  • CMR is influenced by a combination of within-channel and across-channel auditory processes.
  • The extended CASP model provides insights into the interplay of these mechanisms.
  • Understanding these processes is vital for explaining auditory perception in complex acoustic environments.