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Autori principali: Wang, Yeyuan, Gao, Dehong, Yi, Lei, Jin, Linbo, Zhang, Jinxia, Yang, Libin, Cai, Xiaoyan
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2412.10029
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author Wang, Yeyuan
Gao, Dehong
Yi, Lei
Jin, Linbo
Zhang, Jinxia
Yang, Libin
Cai, Xiaoyan
author_facet Wang, Yeyuan
Gao, Dehong
Yi, Lei
Jin, Linbo
Zhang, Jinxia
Yang, Libin
Cai, Xiaoyan
contents Existing Vision-Language Pretraining (VLP) methods have achieved remarkable improvements across a variety of vision-language tasks, confirming their effectiveness in capturing coarse-grained semantic correlations. However, their capability for fine-grained understanding, which is critical for many nuanced vision-language applications, remains limited. Prevailing VLP models often overlook the intricate distinctions in expressing different modal features and typically depend on the similarity of holistic features for cross-modal interactions. Moreover, these models directly align and integrate features from different modalities, focusing more on coarse-grained general representations, thus failing to capture the nuanced differences necessary for tasks demanding a more detailed perception. In response to these limitations, we introduce Negative Augmented Samples(NAS), a refined vision-language pretraining model that innovatively incorporates NAS to specifically address the challenge of fine-grained understanding. NAS utilizes a Visual Dictionary(VD) as a semantic bridge between visual and linguistic domains. Additionally, it employs a Negative Visual Augmentation(NVA) method based on the VD to generate challenging negative image samples. These samples deviate from positive samples exclusively at the token level, thereby necessitating that the model discerns the subtle disparities between positive and negative samples with greater precision. Comprehensive experiments validate the efficacy of NAS components and underscore its potential to enhance fine-grained vision-language comprehension.
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publishDate 2024
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spellingShingle Enhancing Fine-Grained Vision-Language Pretraining with Negative Augmented Samples
Wang, Yeyuan
Gao, Dehong
Yi, Lei
Jin, Linbo
Zhang, Jinxia
Yang, Libin
Cai, Xiaoyan
Computer Vision and Pattern Recognition
Existing Vision-Language Pretraining (VLP) methods have achieved remarkable improvements across a variety of vision-language tasks, confirming their effectiveness in capturing coarse-grained semantic correlations. However, their capability for fine-grained understanding, which is critical for many nuanced vision-language applications, remains limited. Prevailing VLP models often overlook the intricate distinctions in expressing different modal features and typically depend on the similarity of holistic features for cross-modal interactions. Moreover, these models directly align and integrate features from different modalities, focusing more on coarse-grained general representations, thus failing to capture the nuanced differences necessary for tasks demanding a more detailed perception. In response to these limitations, we introduce Negative Augmented Samples(NAS), a refined vision-language pretraining model that innovatively incorporates NAS to specifically address the challenge of fine-grained understanding. NAS utilizes a Visual Dictionary(VD) as a semantic bridge between visual and linguistic domains. Additionally, it employs a Negative Visual Augmentation(NVA) method based on the VD to generate challenging negative image samples. These samples deviate from positive samples exclusively at the token level, thereby necessitating that the model discerns the subtle disparities between positive and negative samples with greater precision. Comprehensive experiments validate the efficacy of NAS components and underscore its potential to enhance fine-grained vision-language comprehension.
title Enhancing Fine-Grained Vision-Language Pretraining with Negative Augmented Samples
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2412.10029