V. Sundareswaran scite author profile

The efficacy of a sound localization training procedure that provided listeners with auditory, visual, and proprioceptive/vestibular feedback as to the correct sound-source position was evaluated using a virtual auditory display that used nonindividualized head-related transfer functions (HRTFs). Under these degraded stimulus conditions, in which the monaural spectral cues to sound-source direction were inappropriate, localization accuracy was initially poor with frequent front-back reversals (source localized to the incorrect front-back hemifield) for five of six listeners. Short periods of training (two 30-min sessions) were found to significantly reduce the rate of front-back reversal responses for four of five listeners that showed high initial reversal rates. Reversal rates remained unchanged for all listeners in a control group that did not participate in the training procedure. Because analyses of the HRTFs used in the display demonstrated a simple and robust front-back cue related to energy in the 3-7-kHz bandwidth, it is suggested that the reductions observed in reversal rates following the training procedure resulted from improved processing of this front-back cue, which is perhaps a form of rapid perceptual recalibration. Reversal rate reductions were found to generalize to untrained source locations, and persisted at least 4 months following the training procedure.

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Learning to ignore: psychophysics and computational modeling of fast learning of direction in noisy motion stimuli

Vaina

Sundareswaran

Harris

1995

Cognitive Brain Research

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TerraMax: Team Oshkosh Urban Robot

Chen

Sundareswaran

Craig

et al. 2009

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Model-based visual tracking for outdoor augmented reality applications

Behringer¹,

Park²,

Sundareswaran³

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Motion parameter estimation from global flow field data

Hummel

Sundareswaran

1993

IEEE Trans. Pattern Anal. Machine Intell.

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V. Sundareswaran

Perceptual recalibration in human sound localization: Learning to remediate front-back reversals

Learning to ignore: psychophysics and computational modeling of fast learning of direction in noisy motion stimuli

TerraMax: Team Oshkosh Urban Robot

Model-based visual tracking for outdoor augmented reality applications

Motion parameter estimation from global flow field data

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