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FORUM: Remote testing for psychological and physiological acoustics.

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Remote testing in acoustics offers wider participant access and real-world data but requires careful consideration of environmental factors. This report details current remote testing methods and challenges for auditory research.

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Area of Science:

  • Auditory research
  • Human acoustics
  • Psychological acoustics
  • Physiological acoustics

Background:

  • Traditional acoustics research relies on controlled laboratory settings for human participant studies.
  • Remote testing allows studies outside laboratories, in everyday environments like participants' homes.
  • Remote testing presents trade-offs: increased participant access and ecological validity versus reduced control and calibration precision.

Purpose of the Study:

  • To survey existing approaches and platforms for remote auditory research.
  • To identify challenges and considerations for researchers conducting remote testing.
  • To outline the state-of-the-art in remote auditory testing as of August 2021.

Main Methods:

  • Formation of the Acoustical Society of America Task Force on Remote Testing in May 2020.
  • Survey of remote testing approaches and platforms.
  • Literature search of papers published since 2020 on remote auditory research.
  • Development of online Wiki pages summarizing findings.
  • Inclusion of three case studies demonstrating feasibility.

Main Results:

  • The Task Force compiled information on available remote testing tools and methodologies.
  • Key challenges include controlling environmental variables, ensuring precise calibration, and managing participant attention and response consistency.
  • The report provides a comprehensive overview of remote auditory research practices up to August 2021.

Conclusions:

  • Remote testing is a viable, albeit challenging, approach for auditory research.
  • The findings offer guidance for researchers aiming to conduct studies outside traditional laboratory settings.
  • Further development and standardization are needed to optimize remote auditory research.