By tuning the weight of each basis function computed for a specific height to replace the pinna response in the KEMAR HRIR at the same height with the resulting ...

This study deals with the perceptual sensitivity to Head-Related Impulse Responses (HRIRs) in the median plane based on a series of subjective listening tests ...

Head-Related Transfer Functions of Human Subjects · Virtual localization improved by scaling nonindividualized external-ear transfer functions in frequency.

Shin and Park [9] proposed HRIR customization method based on subjective tuning of only pinna responses (0.2 ms out of entire HRIR) on median plane using PCA of ...

Jan 1, 2008 · SUMMARY Human's ability to perceive levation of a sound and dis- tinguish whether a sound is coming from the front or rear strongly depends.

Enhanced Vertical Perception through Head-Related Impulse Response Customization Based on Pinna Response Tuning in the Median Plane. Authors. Ki Hoon SHIN ...

Jan 1, 2008 · SUMMARY. Human's ability to perceive elevation of a sound and dis- tinguish whether a sound is coming from the front or rear strongly ...

This study demonstrates that by opening and closing the human pinna, we can change the direction of sound perceived by humans.

Summary. This study deals with modeling and customization of head-related impulse responses (HRIRs) in the median plane based on general basis functions.

Enhanced Vertical Perception through Head-Related Impulse Response Customization Based on Pinna Response Tuning in the Median Plane · K. ShinYoungjin Park.