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Auteurs principaux: Panah, Davoud Shariat, Barry, Dan, Ragano, Alessandro, Skoglund, Jan, Hines, Andrew
Format: Preprint
Publié: 2025
Sujets:
Accès en ligne:https://arxiv.org/abs/2505.11915
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author Panah, Davoud Shariat
Barry, Dan
Ragano, Alessandro
Skoglund, Jan
Hines, Andrew
author_facet Panah, Davoud Shariat
Barry, Dan
Ragano, Alessandro
Skoglund, Jan
Hines, Andrew
contents Spatial audio enhances immersion in applications such as virtual reality, augmented reality, gaming, and cinema by creating a three-dimensional auditory experience. Ensuring the spatial fidelity of binaural audio is crucial, given that processes such as compression, encoding, or transmission can alter localization cues. While subjective listening tests like MUSHRA remain the gold standard for evaluating spatial localization quality, they are costly and time-consuming. This paper introduces BINAQUAL, a full-reference objective metric designed to assess localization similarity in binaural audio recordings. BINAQUAL adapts the AMBIQUAL metric, originally developed for localization quality assessment in ambisonics audio format to the binaural domain. We evaluate BINAQUAL across five key research questions, examining its sensitivity to variations in sound source locations, angle interpolations, surround speaker layouts, audio degradations, and content diversity. Results demonstrate that BINAQUAL effectively differentiates between subtle spatial variations and correlates strongly with subjective listening tests, making it a reliable metric for binaural localization quality assessment. The proposed metric provides a robust benchmark for ensuring spatial accuracy in binaural audio processing, paving the way for improved objective evaluations in immersive audio applications.
format Preprint
id arxiv_https___arxiv_org_abs_2505_11915
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle BINAQUAL: A Full-Reference Objective Localization Similarity Metric for Binaural Audio
Panah, Davoud Shariat
Barry, Dan
Ragano, Alessandro
Skoglund, Jan
Hines, Andrew
Audio and Speech Processing
Sound
Spatial audio enhances immersion in applications such as virtual reality, augmented reality, gaming, and cinema by creating a three-dimensional auditory experience. Ensuring the spatial fidelity of binaural audio is crucial, given that processes such as compression, encoding, or transmission can alter localization cues. While subjective listening tests like MUSHRA remain the gold standard for evaluating spatial localization quality, they are costly and time-consuming. This paper introduces BINAQUAL, a full-reference objective metric designed to assess localization similarity in binaural audio recordings. BINAQUAL adapts the AMBIQUAL metric, originally developed for localization quality assessment in ambisonics audio format to the binaural domain. We evaluate BINAQUAL across five key research questions, examining its sensitivity to variations in sound source locations, angle interpolations, surround speaker layouts, audio degradations, and content diversity. Results demonstrate that BINAQUAL effectively differentiates between subtle spatial variations and correlates strongly with subjective listening tests, making it a reliable metric for binaural localization quality assessment. The proposed metric provides a robust benchmark for ensuring spatial accuracy in binaural audio processing, paving the way for improved objective evaluations in immersive audio applications.
title BINAQUAL: A Full-Reference Objective Localization Similarity Metric for Binaural Audio
topic Audio and Speech Processing
Sound
url https://arxiv.org/abs/2505.11915