Interaural Correlation and the Binaural Summation of Loudness

Overview

Journal J Acoust Soc Am

Publisher American Institute of Physics

Specialty Otorhinolaryngology

Date 2009 Jun 11

PMID 19507969

Citations 13

Authors

Barrie A Edmonds

John F Culling

Affiliations

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Abstract

The effect of interaural correlation (rho) on the loudness for noisebands was measured using a loudness-matching task in naive listeners. The task involved a sequence of loudness comparisons for which the intensity of one stimulus in a given comparison was varied using a one-up-one-down adaptive rule. The task provided an estimate of the level difference (in decibels) for which two stimulus conditions have equal loudness, giving measures of loudness difference in equivalent decibel units (dB(equiv)). Concurrent adaptive tracks measured loudness differences between rho=1, 0, and -1 and between these binaural stimuli and the monaural case for various noisebands. For all noisebands, monaural stimuli required approximately 6 dB higher levels than rho=1 for equal loudness. For most noisebands, rho=1 and rho=-1 were almost equal in loudness, with rho=-1 being slightly louder in the majority of measurements, while rho=0 was about 2 dB(equiv) louder than rho=1 or rho=-1. However, noisebands with significant high-frequency energy showed smaller differences: for 3745-4245 Hz, rho=0 was only about 0.85 dB(equiv) louder than rho=+/-1, and for 100-5000 Hz it was non-significantly louder (perhaps 0.7 dB(equiv)).

Citing Articles

Sensitivity to a Break in Interaural Correlation in Frequency-Gliding Noises.

Fan L, Kong L, Li L, Qu T Front Psychol. 2021; 12:692785.

PMID: 34220654 PMC: 8247655. DOI: 10.3389/fpsyg.2021.692785.

The "Missing 6 dB" Revisited: Influence of Room Acoustics and Binaural Parameters on the Loudness Mismatch Between Headphones and Loudspeakers.

Denk F, Kohnen M, Llorca-Bofi J, Vorlander M, Kollmeier B Front Psychol. 2021; 12:623670.

PMID: 33841255 PMC: 8032957. DOI: 10.3389/fpsyg.2021.623670.

Human scalp evoked potentials related to the fusion between a sound source and its simulated reflection.

Huang Y, Lu H, Li L PLoS One. 2019; 14(1):e0209173.

PMID: 30625162 PMC: 6326413. DOI: 10.1371/journal.pone.0209173.

A Loudness Model for Time-Varying Sounds Incorporating Binaural Inhibition.

Moore B, Glasberg B, Varathanathan A, Schlittenlacher J Trends Hear. 2017; 20:2331216516682698.

PMID: 28215113 PMC: 5318944. DOI: 10.1177/2331216516682698.

Simple reaction time for broadband sounds compared to pure tones.

Schlittenlacher J, Ellermeier W, Avci G Atten Percept Psychophys. 2016; 79(2):628-636.

PMID: 27878557 PMC: 5306307. DOI: 10.3758/s13414-016-1237-x.