Open-Vocabulary Audio-Visual Semantic Segmentation
Audio-visual semantic segmentation (AVSS) aims to segment and classify sounding objects in videos with acoustic cues. However, most approaches operate on the close-set assumption and only identify pre-defined categories from training data, lacking the generalization ability to detect novel categorie...
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| creator | Guo, Ruohao Qu, Liao Niu, Dantong Qi, Yanyu Yue, Wenzhen Shi, Ji Xing, Bowei Ying, Xianghua |
| description | Audio-visual semantic segmentation (AVSS) aims to segment and classify
sounding objects in videos with acoustic cues. However, most approaches operate
on the close-set assumption and only identify pre-defined categories from
training data, lacking the generalization ability to detect novel categories in
practical applications. In this paper, we introduce a new task: open-vocabulary
audio-visual semantic segmentation, extending AVSS task to open-world scenarios
beyond the annotated label space. This is a more challenging task that requires
recognizing all categories, even those that have never been seen nor heard
during training. Moreover, we propose the first open-vocabulary AVSS framework,
OV-AVSS, which mainly consists of two parts: 1) a universal sound source
localization module to perform audio-visual fusion and locate all potential
sounding objects and 2) an open-vocabulary classification module to predict
categories with the help of the prior knowledge from large-scale pre-trained
vision-language models. To properly evaluate the open-vocabulary AVSS, we split
zero-shot training and testing subsets based on the AVSBench-semantic
benchmark, namely AVSBench-OV. Extensive experiments demonstrate the strong
segmentation and zero-shot generalization ability of our model on all
categories. On the AVSBench-OV dataset, OV-AVSS achieves 55.43% mIoU on base
categories and 29.14% mIoU on novel categories, exceeding the state-of-the-art
zero-shot method by 41.88%/20.61% and open-vocabulary method by 10.2%/11.6%.
The code is available at https://github.com/ruohaoguo/ovavss. |
| doi_str_mv | 10.48550/arxiv.2407.21721 |
| format | Article |
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sounding objects in videos with acoustic cues. However, most approaches operate
on the close-set assumption and only identify pre-defined categories from
training data, lacking the generalization ability to detect novel categories in
practical applications. In this paper, we introduce a new task: open-vocabulary
audio-visual semantic segmentation, extending AVSS task to open-world scenarios
beyond the annotated label space. This is a more challenging task that requires
recognizing all categories, even those that have never been seen nor heard
during training. Moreover, we propose the first open-vocabulary AVSS framework,
OV-AVSS, which mainly consists of two parts: 1) a universal sound source
localization module to perform audio-visual fusion and locate all potential
sounding objects and 2) an open-vocabulary classification module to predict
categories with the help of the prior knowledge from large-scale pre-trained
vision-language models. To properly evaluate the open-vocabulary AVSS, we split
zero-shot training and testing subsets based on the AVSBench-semantic
benchmark, namely AVSBench-OV. Extensive experiments demonstrate the strong
segmentation and zero-shot generalization ability of our model on all
categories. On the AVSBench-OV dataset, OV-AVSS achieves 55.43% mIoU on base
categories and 29.14% mIoU on novel categories, exceeding the state-of-the-art
zero-shot method by 41.88%/20.61% and open-vocabulary method by 10.2%/11.6%.
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sounding objects in videos with acoustic cues. However, most approaches operate
on the close-set assumption and only identify pre-defined categories from
training data, lacking the generalization ability to detect novel categories in
practical applications. In this paper, we introduce a new task: open-vocabulary
audio-visual semantic segmentation, extending AVSS task to open-world scenarios
beyond the annotated label space. This is a more challenging task that requires
recognizing all categories, even those that have never been seen nor heard
during training. Moreover, we propose the first open-vocabulary AVSS framework,
OV-AVSS, which mainly consists of two parts: 1) a universal sound source
localization module to perform audio-visual fusion and locate all potential
sounding objects and 2) an open-vocabulary classification module to predict
categories with the help of the prior knowledge from large-scale pre-trained
vision-language models. To properly evaluate the open-vocabulary AVSS, we split
zero-shot training and testing subsets based on the AVSBench-semantic
benchmark, namely AVSBench-OV. Extensive experiments demonstrate the strong
segmentation and zero-shot generalization ability of our model on all
categories. On the AVSBench-OV dataset, OV-AVSS achieves 55.43% mIoU on base
categories and 29.14% mIoU on novel categories, exceeding the state-of-the-art
zero-shot method by 41.88%/20.61% and open-vocabulary method by 10.2%/11.6%.
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sounding objects in videos with acoustic cues. However, most approaches operate
on the close-set assumption and only identify pre-defined categories from
training data, lacking the generalization ability to detect novel categories in
practical applications. In this paper, we introduce a new task: open-vocabulary
audio-visual semantic segmentation, extending AVSS task to open-world scenarios
beyond the annotated label space. This is a more challenging task that requires
recognizing all categories, even those that have never been seen nor heard
during training. Moreover, we propose the first open-vocabulary AVSS framework,
OV-AVSS, which mainly consists of two parts: 1) a universal sound source
localization module to perform audio-visual fusion and locate all potential
sounding objects and 2) an open-vocabulary classification module to predict
categories with the help of the prior knowledge from large-scale pre-trained
vision-language models. To properly evaluate the open-vocabulary AVSS, we split
zero-shot training and testing subsets based on the AVSBench-semantic
benchmark, namely AVSBench-OV. Extensive experiments demonstrate the strong
segmentation and zero-shot generalization ability of our model on all
categories. On the AVSBench-OV dataset, OV-AVSS achieves 55.43% mIoU on base
categories and 29.14% mIoU on novel categories, exceeding the state-of-the-art
zero-shot method by 41.88%/20.61% and open-vocabulary method by 10.2%/11.6%.
The code is available at https://github.com/ruohaoguo/ovavss.</abstract><doi>10.48550/arxiv.2407.21721</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Artificial Intelligence Computer Science - Multimedia |
| title | Open-Vocabulary Audio-Visual Semantic Segmentation |
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