BIOMAT Database Logo BIOMAT Database Logo

Estimation of distances of recorded sounds presented through headphones. 1979

B F Lounsbury, and R A Butler

Intermittent sounds generated at 270 degrees azimuth and from distances ranging from 2 to 10 feet were recorded on magnetic tape and played back to listeners via headphones. Loudness cues for relative distance were eliminated at the time of recording. Listeners were required to estimate the apparent distance of the recorded sounds when heard monoaurally and binaurally. Most subjects estimated the order of distances correctly. Distance estimations were as proficient when listening monaurally as when listening binaurally. Performance was more accurate for high-pass (greater than 4.0 kHz) noise bursts than for low-pass (less than 1.0 kHz) noise bursts. In a second study, broad-band noise bursts were recorded from azimuthal positions of 360 degrees, 330 degrees, 300 degrees and 270 degrees again at distances ranging from 2 to 10 feet. Estimations of the distances of the sounds, presented via headphones, were most proficient when azimuthal position of the original stimuli was 330 degrees.

UI MeSH Term Description Entries
D004215 Distance Perception The act of knowing or the recognition of a distance by recollective thought, or by means of a sensory process which is under the influence of a set of prior experiences. Distance Discrimination,Discrimination, Distance,Discriminations, Distance,Perception, Distance
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000161 Acoustic Stimulation Use of sound to elicit a response in the nervous system. Auditory Stimulation,Stimulation, Acoustic,Stimulation, Auditory
D000328 Adult A person having attained full growth or maturity. Adults are of 19 through 44 years of age. For a person between 19 and 24 years of age, YOUNG ADULT is available. Adults
D001307 Auditory Perception The process whereby auditory stimuli are selected, organized, and interpreted by the organism. Auditory Processing,Perception, Auditory,Processing, Auditory
D013017 Sound Localization Ability to determine the specific location of a sound source. Auditory Localization,Auditory Localizations,Localization, Auditory,Localization, Sound,Localizations, Auditory,Localizations, Sound,Sound Localizations

Related Publications

B F Lounsbury, and R A Butler
The effects of distractor sounds presented through bone conduction headphones on the localization of critical environmental sounds.
May 2017, Applied ergonomics,
B F Lounsbury, and R A Butler
Stimulus factors which influence the perceived externalization of sound presented through headphones.
January 1978, The Journal of auditory research,
B F Lounsbury, and R A Butler
Estimation of bacterial species phylogeny through oligonucleotide frequency distances.
June 2009, Genomics,
B F Lounsbury, and R A Butler
Estimation of Heart Rate From Tracheal Sounds Recorded for the Sleep Apnea Syndrome Diagnosis.
October 2021, IEEE transactions on bio-medical engineering,
B F Lounsbury, and R A Butler
Infant responses to recorded sounds.
December 1968, Journal of speech and hearing research,
B F Lounsbury, and R A Butler
Respiratory Rate Estimation during Walking and Running Using Breathing Sounds Recorded with a Microphone.
June 2023, Biosensors,
B F Lounsbury, and R A Butler
Ear asymmetries with monaurally-presented sounds.
January 1977, Neuropsychologia,
B F Lounsbury, and R A Butler
Localization of dichotically presented sounds in dogs.
January 1981, Neuroscience and behavioral physiology,
B F Lounsbury, and R A Butler
Sei whale sounds recorded in the Antarctic.
December 2005, The Journal of the Acoustical Society of America,
B F Lounsbury, and R A Butler
Recorded sounds for hearing tests in infants.
December 1965, The Journal of laryngology and otology,
Copied contents to your clipboard!