TY - GEN
T1 - Feasibility of iMagLS-BSM - ILD Informed Binaural Signal Matching with Arbitrary Microphone Arrays
AU - Berebi, Or
AU - Ben-Hur, Zamir
AU - Alon, David Lou
AU - Rafaely, Boaz
N1 - Publisher Copyright: © 2024 IEEE.
PY - 2024/1/1
Y1 - 2024/1/1
N2 - Binaural reproduction for headphone-centric listening has become a focal point in ongoing research, particularly within the realm of advancing technologies such as augmented and virtual reality (AR and VR). The demand for high-quality spatial audio in these applications is essential to uphold a seamless sense of immersion. However, challenges arise from wearable recording devices equipped with only a limited number of microphones and irregular microphone placements due to design constraints. These factors contribute to limited reproduction quality compared to reference signals captured by high-order microphone arrays. This paper introduces a novel optimization loss tailored for a beamforming-based, signal-independent binaural reproduction scheme. This method, named iMagLS-BSM incorporates an interaural level difference (ILD) error term into the previously proposed binaural signal matching (BSM) magnitude least squares (MagLS) rendering loss for lateral plane angles. The method leverages nonlinear programming to minimize the introduced loss. Preliminary results show a substantial reduction in ILD error, while maintaining a binaural magnitude error comparable to that achieved with a MagLS BSM solution. These findings hold promise for enhancing the overall spatial quality of resultant binaural signals.
AB - Binaural reproduction for headphone-centric listening has become a focal point in ongoing research, particularly within the realm of advancing technologies such as augmented and virtual reality (AR and VR). The demand for high-quality spatial audio in these applications is essential to uphold a seamless sense of immersion. However, challenges arise from wearable recording devices equipped with only a limited number of microphones and irregular microphone placements due to design constraints. These factors contribute to limited reproduction quality compared to reference signals captured by high-order microphone arrays. This paper introduces a novel optimization loss tailored for a beamforming-based, signal-independent binaural reproduction scheme. This method, named iMagLS-BSM incorporates an interaural level difference (ILD) error term into the previously proposed binaural signal matching (BSM) magnitude least squares (MagLS) rendering loss for lateral plane angles. The method leverages nonlinear programming to minimize the introduced loss. Preliminary results show a substantial reduction in ILD error, while maintaining a binaural magnitude error comparable to that achieved with a MagLS BSM solution. These findings hold promise for enhancing the overall spatial quality of resultant binaural signals.
KW - Arbitrary Microphone Arrays
KW - Binaural Reproduction
KW - ILD
KW - Spatial Audio
UR - http://www.scopus.com/inward/record.url?scp=85207168581&partnerID=8YFLogxK
U2 - 10.1109/IWAENC61483.2024.10694218
DO - 10.1109/IWAENC61483.2024.10694218
M3 - Conference contribution
T3 - 2024 18th International Workshop on Acoustic Signal Enhancement, IWAENC 2024 - Proceedings
SP - 429
EP - 433
BT - 2024 18th International Workshop on Acoustic Signal Enhancement, IWAENC 2024 - Proceedings
T2 - 18th International Workshop on Acoustic Signal Enhancement, IWAENC 2024
Y2 - 9 September 2024 through 12 September 2024
ER -