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Psychoacoustics Laboratory

Research in our lab is concerned with the relation between the physical properties of sound (frequency and intensity) and the psychological or perceptual properties (pitch and loudness).

  • Overview

    Research in the Psychoacoustics Laboratory is concerned with the relation between intensity resolution, masking and loudness. These topics can be loosely organized as a triangle. Until recently, our work focused on intensity resolution and masking, but we have now shifted to the loudness corner of the triangle. There is a remarkable lack of consensus in the loudness research community regarding some of the techniques for measurement of loudness in clinical research, while many of those in the masking research community who would reject all of the techniques because they are subjective. On the other hand, the obvious relevance of loudness in our everyday lives has led to the development of ANSI and ISO standards supported by computational models that make precise predictions. There is no comparable consensus regarding prediction of masked thresholds or intensity difference limens. We are currently focusing on issues directly related to the measurement of the loudness of broadband sounds in listeners with sensorineural hearing loss. These measurements are important for hearing aid research, but may be among the most difficult loudness measurements to make. We are attacking the problem using techniques borrowed from the masking literature.


    The laboratory was one of the two initial laboratories established at BTNRH when the building opened in 1977. It beame a virtual laboratory in July 2015 when the space was given to Dr. Leibold. We currently use a single-walled sound room in Dr. Keefe's laboratory for data collection.  Our standard equipment configuration includes a PC equipped with a 24-bit Card Delux sound card, followed by a Sonus amplifier and Sennheiser 25 headphones.  Responses are obtained using a keyboard and mouse. 

    Professional ​Resources

    Copies of our waveform generation, data collection and data analysis software are available upon request.

    Specific Areas of Research:

    • Loudness of broadband sounds
    • Multistage functional models of loudness, intensity resolution and masking
    • Relation between behavioral and OAE measures of response growth
  • Staff

    The laboratory is directed by Walt Jesteadt, Ph.D. Stephen T. Neely, D.Sc. works closely with Dr. Jesteadt and other members of the laboratory staff on models of auditory perception. Thomas Creutz, B.S.,  has retired, but continues to maintain the data collection and data-analysis software. 

  • Summary of Research Program

    For Clinicians and Scientists

    The current focus of this research program is to develop better methodology for the measurement of loudness and to apply the methodology to measurement of the loudness of broadband sounds. Abnormal and uncomfortable loudness is a major cause of rejection of hearing aids, despite the fact that many hearing-aid fitting algorithms are specifically designed to restore normal loudness. Much of our understanding of loudness was gained in basic research using narrowband sounds. To study the loudness of broadband sounds, we need tools that will provide information on the contributions of specific frequency regions to the overall loudness of the sound. We are developing those tools using methods widely used in studies of masking, where the impact of specific stimulus properties on perception is determined by computing the correlation between those stimulus properties and subjects’ responses across many stimulus presentations. By varying the level of noise in specific frequency bands from presentation to presentation and having subjects make loudness judgments, it is possible to determine the relative contributions of the stimulus bands to the total loudness of broadband sounds. We are comparing these measures of perceptual weight to data obtained in loudness matching experiments and to perceptual weights predicted by the Moore and Glasberg (2004) loudness model. Preliminary work with the model suggests that the perceptual-weights measure is highly correlated with specific loudness, the contribution of each frequency to total loudness as predicted by the model. Observed perceptual weights data, however, are not highly correlated with the perceptual weights predicted by the model.


    Research in psychoacoustics is concerned with the relation between the physical properties of sound, such as frequency and intensity, and the psychological or perceptual properties, such as pitch and loudness. Physical properties of sound can be readily assessed, but measuring the sensory or perceptual experience evoked by a sound is more difficult. Audiologists are required to make such measurements every day, establishing when sounds can be heard, for example, or how loud they are. Our research program is focused on the problem of using the physical properties of sounds to predict the loudness of sounds in listeners with normal hearing and sensorineural hearing loss. We know a lot about loudness, but most of the work has been done with pure tones rather than broadband sounds like speech. When broadband sounds are too loud, one solution is to reduce the level of the entire sound. For listeners with hearing loss, this may make some parts of the sound inaudible. It would be better to know which frequency regions are making the biggest contribution to loudness and to reduce the levels of those specific frequency regions. We are developing the necessary measurement techniques. They may require more test time than is typically available when adjusting hearing aids, but could be quite useful in hearing aid research.