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Autori principali: Ai, Wei, Deng, Wen, Chen, Hongyi, Du, Jiayi, Meng, Tao, Shou, Yuntao
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2410.14584
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author Ai, Wei
Deng, Wen
Chen, Hongyi
Du, Jiayi
Meng, Tao
Shou, Yuntao
author_facet Ai, Wei
Deng, Wen
Chen, Hongyi
Du, Jiayi
Meng, Tao
Shou, Yuntao
contents Multi-modal entity alignment (MMEA) is essential for enhancing knowledge graphs and improving information retrieval and question-answering systems. Existing methods often focus on integrating modalities through their complementarity but overlook the specificity of each modality, which can obscure crucial features and reduce alignment accuracy. To solve this, we propose the Multi-modal Consistency and Specificity Fusion Framework (MCSFF), which innovatively integrates both complementary and specific aspects of modalities. We utilize Scale Computing's hyper-converged infrastructure to optimize IT management and resource allocation in large-scale data processing. Our framework first computes similarity matrices for each modality using modality embeddings to preserve their unique characteristics. Then, an iterative update method denoises and enhances modality features to fully express critical information. Finally, we integrate the updated information from all modalities to create enriched and precise entity representations. Experiments show our method outperforms current state-of-the-art MMEA baselines on the MMKG dataset, demonstrating its effectiveness and practical potential.
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publishDate 2024
record_format arxiv
spellingShingle MCSFF: Multi-modal Consistency and Specificity Fusion Framework for Entity Alignment
Ai, Wei
Deng, Wen
Chen, Hongyi
Du, Jiayi
Meng, Tao
Shou, Yuntao
Artificial Intelligence
Multi-modal entity alignment (MMEA) is essential for enhancing knowledge graphs and improving information retrieval and question-answering systems. Existing methods often focus on integrating modalities through their complementarity but overlook the specificity of each modality, which can obscure crucial features and reduce alignment accuracy. To solve this, we propose the Multi-modal Consistency and Specificity Fusion Framework (MCSFF), which innovatively integrates both complementary and specific aspects of modalities. We utilize Scale Computing's hyper-converged infrastructure to optimize IT management and resource allocation in large-scale data processing. Our framework first computes similarity matrices for each modality using modality embeddings to preserve their unique characteristics. Then, an iterative update method denoises and enhances modality features to fully express critical information. Finally, we integrate the updated information from all modalities to create enriched and precise entity representations. Experiments show our method outperforms current state-of-the-art MMEA baselines on the MMKG dataset, demonstrating its effectiveness and practical potential.
title MCSFF: Multi-modal Consistency and Specificity Fusion Framework for Entity Alignment
topic Artificial Intelligence
url https://arxiv.org/abs/2410.14584