Currently, achieving high-fidelity sound spatialization requires the prospective user to undergo lengthy measurements in an anechoic chamber using highly specialized equipment. This, in turn, has increased the cost and reduced the availability of high-fidelity spatialization to the general public. An attempt to generalize 3D audio has been made using the measurement of a KEMAR dummy head or creating a database containing a sample of the public. Unfortunately, this leads to increased front/back reversals and localization errors in the median plane. Customizable Head-Related Impulse Responses (HRIRs) would reduce the errors caused by general HRIRs and remove the limitation of the measured HRIRs. This paper reports an initial stage in the deve...
This paper addresses the problem of modeling head-related transfer functions (HRTFs) for 3-D audio r...
A complex-valued head-related transfer function (HRTF) can be represented as a real-valued head-rela...
Head-Related Transfer Functions (HRTF's) describe the directionally dependent acoustic filtering pro...
Currently, achieving high-fidelity sound spatialization requires the prospective user to undergo len...
Digital systems can generate left and right audio channels that create the effect of virtual sound s...
Abstract:- Many spatial audio (“3D sound”) systems are based on the use of Head-Related Transfer Fun...
Abstract:- This paper introduces a new approach to the decomposition of measured Head-Related Impuls...
Abstract:- Audio spatialization is a rapidly growing field in acoustics and audio signal processing....
Abstract:- In order to achieve full binaural sound, audio signals must be synthesized using speciali...
Abstract- Currently, to obtain maximum fidelity 3D audio, an intended listener is required to underg...
Abstract:- In order to achieve highly accurate 3D audio spatialization, an intended listener must un...
One of the most popular techniques for creating spatialized virtual sounds is based on the use of He...
Head-Related Impulse Responses (HRIRs) are used in signal processing to implement the synthesis of s...
Abstract Head-related impulse responses (HRIRs) allow for the creation of virtual acoustic scenes. S...
Human beings have a remarkable ability to determine the direction of arrival of a sound and to separ...
This paper addresses the problem of modeling head-related transfer functions (HRTFs) for 3-D audio r...
A complex-valued head-related transfer function (HRTF) can be represented as a real-valued head-rela...
Head-Related Transfer Functions (HRTF's) describe the directionally dependent acoustic filtering pro...
Currently, achieving high-fidelity sound spatialization requires the prospective user to undergo len...
Digital systems can generate left and right audio channels that create the effect of virtual sound s...
Abstract:- Many spatial audio (“3D sound”) systems are based on the use of Head-Related Transfer Fun...
Abstract:- This paper introduces a new approach to the decomposition of measured Head-Related Impuls...
Abstract:- Audio spatialization is a rapidly growing field in acoustics and audio signal processing....
Abstract:- In order to achieve full binaural sound, audio signals must be synthesized using speciali...
Abstract- Currently, to obtain maximum fidelity 3D audio, an intended listener is required to underg...
Abstract:- In order to achieve highly accurate 3D audio spatialization, an intended listener must un...
One of the most popular techniques for creating spatialized virtual sounds is based on the use of He...
Head-Related Impulse Responses (HRIRs) are used in signal processing to implement the synthesis of s...
Abstract Head-related impulse responses (HRIRs) allow for the creation of virtual acoustic scenes. S...
Human beings have a remarkable ability to determine the direction of arrival of a sound and to separ...
This paper addresses the problem of modeling head-related transfer functions (HRTFs) for 3-D audio r...
A complex-valued head-related transfer function (HRTF) can be represented as a real-valued head-rela...
Head-Related Transfer Functions (HRTF's) describe the directionally dependent acoustic filtering pro...