Sun Keun Hwang scite author profile

This study deals with modeling and customization of head-related impulse responses (HRIRs)i nt he median plane based on general basis functions. To clarify whether the 12 principal components (PCs)o btained from principal components analysis of the median-plane HRIRs in the CIPIC HRTF database can be general basis functions to model arbitrary subject'sm edian-plane HRIRs, which are not included in the process to obtain the basis functions, as eries of subjective listening tests and an error analysis in the least-squares sense were carried out using the measured and modeled HRIRs. The results showed that the set of individual HRIRs, which were measured using different measurement conditions, techniques, and source positions from the CIPIC dataset, can be modeled with reasonable accuracy. All subjects reported accurate elevation perception in the median plane with the modeled HRIRs from the general basis functions. An ovelH RIR customization method based on subjective tuning of the general basis functions wasp roposed. At each elevation, the only three weights of dominant basis functions corresponding to the three largest inter-subject variations were tuned by as ubject and the weights of other basis functions were just mean values of all subjects in the CIPIC HRTF database. In the subjective listening test results, all subjects reported dramatically improvedperformances for the vertical perception and the front-back discrimination with the customized HRIRs than those with the non-individual HRIRs.

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Sun Keun Hwang

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Modeling and Customization of Head-Related Impulse Responses Based on General Basis Functions in Time Domain

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