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Automatic processing refers to the cognitive operations that occur without conscious intent or awareness, playing a fundamental role in shaping social cognition and behavior. These processes enable individuals to navigate complex social environments efficiently by relying on mental shortcuts and pre-existing knowledge structures known as schemas. One of the most influential mechanisms underlying automatic processing is priming, which subtly activates mental representations through exposure to...

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Related Experiment Video

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Behavioral Determination of Stimulus Pair Discrimination of Auditory Acoustic and Electrical Stimuli Using a Classical Conditioning and Heart-rate Approach
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Faster automatic ASSR detection using sequential tests.

Tiago Zanotelli1,2, Felipe Antunes3, David Martin Simpson4

  • 1Department of Electrical Engineering, Graduate Program in Electrical Engineering, Federal University of Minas Gerais, Belo Horizonte, Brazil.

International Journal of Audiology
|February 25, 2020
PubMed
Summary
This summary is machine-generated.

This study introduces a new method for auditory steady-state response (ASSR) detection using sequential objective response detection (ORD). The approach speeds up testing while maintaining low false positive rates for accurate hearing assessments.

Keywords:
Auditory steady-state responsenumber of consecutive detectionsobjective response detectionsequential testingstopping criteria

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Area of Science:

  • Audiology
  • Signal Processing
  • Statistical Methods

Background:

  • Objective Response Detection (ORD) is used for Auditory Steady-State Response (ASSR) detection.
  • Conventional methods use single-shot statistical tests, while sequential methods test repeatedly during data collection.
  • Repeated testing in sequential methods can increase False Positive (FP) rates.

Purpose of the Study:

  • To develop a new method for finding the required Number of Consecutive Detections (NCD) to control FP rates in ASSR detection.
  • To improve the speed of ASSR detection using a sequential ORD strategy.

Main Methods:

  • Estimated NCD values using Monte Carlo simulations.
  • Applied sequential ORD with NCD as a stopping criterion.
  • Recorded ASSR signals from 8 normal-hearing subjects.

Main Results:

  • Exam time was reduced by up to 38.9% compared to single-shot tests.
  • Achieved lower time gains with minimal (non-significant) loss in detection rate.
  • Maintained FP rates at the nominal 1% level.

Conclusions:

  • Sequential testing strategy with NCD effectively controls FP rates.
  • This method enhances the speed of ASSR detection.
  • The approach prevents higher than expected FP rates in auditory response detection.