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Hauptverfasser: Yang, Cheng-Yeh, Huang, Kuan-Tang, Wang, Chien-Chun, Lee, Hung-Shin, Wang, Hsin-Min, Chen, Berlin
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2508.21407
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author Yang, Cheng-Yeh
Huang, Kuan-Tang
Wang, Chien-Chun
Lee, Hung-Shin
Wang, Hsin-Min
Chen, Berlin
author_facet Yang, Cheng-Yeh
Huang, Kuan-Tang
Wang, Chien-Chun
Lee, Hung-Shin
Wang, Hsin-Min
Chen, Berlin
contents A pooling mechanism is essential for mean opinion score (MOS) prediction, facilitating the transformation of variable-length audio features into a concise fixed-size representation that effectively encodes speech quality. Existing pooling methods typically operate at a singular granularity, concentrating either on a comprehensive global perspective or a detailed frame-level analysis, which may overlook complementary perceptual insights. To address this limitation, we introduce the Dual-Resolution Attentive Statistics Pooling (DRASP) framework. DRASP integrates both coarse-grained, global statistical summaries and fine-grained, attentive analyses of perceptually significant segments. This dual-view architecture empowers our model to formulate a more thorough and robust representation, capturing both the overarching structural context and salient local details concurrently. Extensive experiments validate the effectiveness and strong generalization ability of the proposed framework. It consistently outperforms various baseline methods across diverse datasets (MusicEval and AES-Natural), MOS prediction backbones (including a CLAP-based model and AudioBox-Aesthetics), and different audio generation systems, achieving a relative improvement of 10.39% in system-level Spearman's rank correlation coefficient (SRCC) over the widely-used average pooling approach.
format Preprint
id arxiv_https___arxiv_org_abs_2508_21407
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle DRASP: A Dual-Resolution Attentive Statistics Pooling Framework for Automatic MOS Prediction
Yang, Cheng-Yeh
Huang, Kuan-Tang
Wang, Chien-Chun
Lee, Hung-Shin
Wang, Hsin-Min
Chen, Berlin
Sound
Artificial Intelligence
A pooling mechanism is essential for mean opinion score (MOS) prediction, facilitating the transformation of variable-length audio features into a concise fixed-size representation that effectively encodes speech quality. Existing pooling methods typically operate at a singular granularity, concentrating either on a comprehensive global perspective or a detailed frame-level analysis, which may overlook complementary perceptual insights. To address this limitation, we introduce the Dual-Resolution Attentive Statistics Pooling (DRASP) framework. DRASP integrates both coarse-grained, global statistical summaries and fine-grained, attentive analyses of perceptually significant segments. This dual-view architecture empowers our model to formulate a more thorough and robust representation, capturing both the overarching structural context and salient local details concurrently. Extensive experiments validate the effectiveness and strong generalization ability of the proposed framework. It consistently outperforms various baseline methods across diverse datasets (MusicEval and AES-Natural), MOS prediction backbones (including a CLAP-based model and AudioBox-Aesthetics), and different audio generation systems, achieving a relative improvement of 10.39% in system-level Spearman's rank correlation coefficient (SRCC) over the widely-used average pooling approach.
title DRASP: A Dual-Resolution Attentive Statistics Pooling Framework for Automatic MOS Prediction
topic Sound
Artificial Intelligence
url https://arxiv.org/abs/2508.21407