Modelling of human low frequency sound localization acuity demonstrates dominance of spatial variation of interaural time difference and suggests uniform just-noticeable differences in interaural time difference. [PDF]
, 2014 Sound source localization is critical to animal survival and for identification of auditory objects. We investigated the acuity with which humans localize low frequency, pure tone sounds using timing differences between the ears.
Price, SR, Smith, RC
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International Archives of Otorhinolaryngology, 2019 Introduction Even people with normal hearing may have difficulties locating a sound source in unfavorable sound environments where competitive noise is intense.
Gleide Viviani Maciel Almeida +2 more
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Localization of sound sources in robotics: A review
Robotics and Autonomous Systems, 2017 La localisation de la source sonore (SSL) dans une plate-forme robotique a été essentielle dans le schéma global de l'audition du robot. Il permet à un robot de localiser une source sonore uniquement par le son. Il a un impact important sur d'autres modules d'audition de robot, tels que la séparation des sources, et il enrichit l'interaction homme ...
Caleb Rascón, Iván Meza
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The avian head induces cues for sound localization in elevation. [PDF]
PLoS ONE, 2014 Accurate sound source localization in three-dimensional space is essential for an animal's orientation and survival. While the horizontal position can be determined by interaural time and intensity differences, localization in elevation was thought to ...
Hans A Schnyder +4 more
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Position-dependent hearing in three species of bushcrickets (Tettigoniidae, Orthoptera) [PDF]
Royal Society Open Science, 2015 A primary task of auditory systems is the localization of sound sources in space. Sound source localization in azimuth is usually based on temporal or intensity differences of sounds between the bilaterally arranged ears.
Reinhard Lakes-Harlan, Jan Scherberich
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Object localization using a biosonar beam: how opening your mouth improves localization [PDF]
Royal Society Open Science, 2015 Determining the location of a sound source is crucial for survival. Both predators and prey usually produce sound while moving, revealing valuable information about their presence and location.
G. Arditi, A. J. Weiss, Y. Yovel
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Rectified binaural ratio: A complex T-distributed feature for robust sound localization [PDF]
, 2016 International audienceMost existing methods in binaural sound source localization rely on some kind of aggregation of phase-and level-difference cues in the time-frequency plane.
Deleforge, Antoine, Forbes, Florence
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Sex Differences in Medication Discontinuation in Axial Spondyloarthritis
Arthritis Care &Research, EarlyView.Objective We examined sex differences in medication discontinuation among patients with axial spondyloarthritis (axSpA) initiating tumor necrosis factor inhibitors (TNFi), interleukin‐17 inhibitors (IL‐17i), or JAK inhibitors (JAKi). Methods Using data from the Rheumatology Informatics System for Effectiveness (RISE) Registry (2003–2025), we assessed ...
Rachael Stovall +9 more
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Binaural Localization for a Mobile Sound Source
Journal of Biomechanical Science and Engineering, 2011 This paper proposes a biologically inspired binaural auditory system to localize a mobile sound source. The robot considered in this paper has two microphones installed on a mobile platform to provide binaural hearing.
Makoto KUMON, Shuji UOZUMI
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Towards a generalized theory of low-frequency sound source localization [PDF]
, 2012 Low-frequency sound source localization generates considerable amount of disagreement between audio/acoustics researchers, with some arguing that below a certain frequency humans cannot localize a source with others insisting that in certain cases ...
Hawksford, Malcolm O. J. +2 more
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