A test of the Binaural Equal-Loudness-Ratio hypothesis for tones

Jeremy Marozeau; Michael Epstein; Mary Florentine; Becky Daley

doi:10.1121/1.2363935

A test of the Binaural Equal-Loudness-Ratio hypothesis for tones

Jeremy Marozeau, Michael Epstein, Mary Florentine, Becky Daley

Northeastern University

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

It is well known that a tone presented binaurally is louder than the same tone presented monaurally. It is less clear how this loudness ratio changes as a function of level. The present experiment was designed to directly test the Binaural Equal-Loudness-Ratio hypothesis (BELRH), which states that the loudness ratio between equal-SPL monaural and binaural tones is independent of SPL. If true, the BELRH implies that monaural and binaural loudness functions are parallel when plotted on a log scale. Cross-modality matches between string length and loudness were used to directly measure binaural and monaural loudness functions for nine normal listeners. Stimuli were 1-kHz 200-ms tones ranging in level from 5 dB SL to 100 dB SPL. A two-way ANOVA showed significant effects of level and mode (binaural or monaural) on loudness, but no interaction between the level and mode. Consequently, no significant variations were found in the binaural-to-monaural loudness ratio across the range of levels tested. This finding supports the BELRH. In addition, the present data were found to closely match loudness functions derived from binaural level differences for equal loudness using the model proposed by Whilby et al.

Original language	English
Journal	Acoustical Society of America. Journal
Volume	120
Issue number	6
Pages (from-to)	3870-3877
ISSN	0001-4966
DOIs	https://doi.org/10.1121/1.2363935
Publication status	Published - 2006
Externally published	Yes

Keywords

Acoustics
Adult
Aged
Auditory Threshold
Female
Humans
Judgment
Loudness Perception
Male
Middle Aged
TONE (Phonetics)
Functions
Mathematical models
Statistical methods
Speech processing
adult
aged
analysis of variance
article
auditory stimulation
auditory threshold
Binaural Equal Loudness Ratio hypothesis
binaural hearing
female
hearing
hearing test
human
human experiment
hypothesis
loglinear model
loudness
male
monaural hearing
normal human
priority journal
sound
sound intensity
tone
Binaural Equal-Loudness-Ratio hypothesis (BELRH)
Loudness functions
Tones
T
IMPAIRED HEARING
TEMPORAL INTEGRATION
MONAURAL LOUDNESS
PURE-TONES
SUMMATION
REDUCTION
LEVEL
RECALIBRATION
PERCEPTION
THRESHOLD
binaural loudness
binaural tone
loudness ratio
04500, Mathematical biology and statistical methods
10515, Biophysics - Biocybernetics
20004, Sense organs - Physiology and biochemistry
Computational Biology
Binaural Equal-Loudness-Ratio model mathematical and computer techniques
Models and Simulations
Sensory Reception

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doi = "10.1121/1.2363935",

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AU - Epstein, Michael

AU - Florentine, Mary

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N2 - It is well known that a tone presented binaurally is louder than the same tone presented monaurally. It is less clear how this loudness ratio changes as a function of level. The present experiment was designed to directly test the Binaural Equal-Loudness-Ratio hypothesis (BELRH), which states that the loudness ratio between equal-SPL monaural and binaural tones is independent of SPL. If true, the BELRH implies that monaural and binaural loudness functions are parallel when plotted on a log scale. Cross-modality matches between string length and loudness were used to directly measure binaural and monaural loudness functions for nine normal listeners. Stimuli were 1-kHz 200-ms tones ranging in level from 5 dB SL to 100 dB SPL. A two-way ANOVA showed significant effects of level and mode (binaural or monaural) on loudness, but no interaction between the level and mode. Consequently, no significant variations were found in the binaural-to-monaural loudness ratio across the range of levels tested. This finding supports the BELRH. In addition, the present data were found to closely match loudness functions derived from binaural level differences for equal loudness using the model proposed by Whilby et al.

AB - It is well known that a tone presented binaurally is louder than the same tone presented monaurally. It is less clear how this loudness ratio changes as a function of level. The present experiment was designed to directly test the Binaural Equal-Loudness-Ratio hypothesis (BELRH), which states that the loudness ratio between equal-SPL monaural and binaural tones is independent of SPL. If true, the BELRH implies that monaural and binaural loudness functions are parallel when plotted on a log scale. Cross-modality matches between string length and loudness were used to directly measure binaural and monaural loudness functions for nine normal listeners. Stimuli were 1-kHz 200-ms tones ranging in level from 5 dB SL to 100 dB SPL. A two-way ANOVA showed significant effects of level and mode (binaural or monaural) on loudness, but no interaction between the level and mode. Consequently, no significant variations were found in the binaural-to-monaural loudness ratio across the range of levels tested. This finding supports the BELRH. In addition, the present data were found to closely match loudness functions derived from binaural level differences for equal loudness using the model proposed by Whilby et al.

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DO - 10.1121/1.2363935

M3 - Journal article

VL - 120

SP - 3870

EP - 3877

JO - Acoustical Society of America. Journal

JF - Acoustical Society of America. Journal

SN - 0001-4966

IS - 6

ER -

A test of the Binaural Equal-Loudness-Ratio hypothesis for tones

Abstract

Keywords

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