Semi-supervised Entity Alignment via Joint Knowledge Embedding Model and Cross-graph Model

Li, Chengjiang; Cao, Yixin; Hou, Lei; Shi, Jiaxin; Li, Juanzi; Chua, Tat-Seng

doi:10.18653/v1/d19-1274

Cited by 113 publications

(69 citation statements)

References 18 publications

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“…With our ongoing evaluation efforts -the KG track will be part of OAEI 2020 again -we provide a testbed for new and improved solutions in that field. Moreover, a few approaches for the task of knowledge graph matching have been published in the recent past (e.g., [20,27,29]), which have been evaluated on different datasets (and in closed domain settings only), hence, their results are not directly comparable. By providing a generic benchmark including both open and closed domain settings, we enable a more systematic comparison for such works in the future.…”

Section: Discussionmentioning

confidence: 99%

The Knowledge Graph Track at OAEI

Hertling

Paulheim

2020

The Semantic Web

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The Ontology Alignment Evaluation Initiative (OAEI) is an annual evaluation of ontology matching tools. In 2018, we have started the Knowledge Graph track, whose goal is to evaluate the simultaneous matching of entities and schemas of large-scale knowledge graphs. In this paper, we discuss the design of the track and two different strategies of gold standard creation. We analyze results and experiences obtained in first editions of the track, and, by revealing a hidden task, we show that all tools submitted to the track (and probably also to other tracks) suffer from a bias which we name the golden hammer bias.

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Section: Discussionmentioning

confidence: 99%

The Knowledge Graph Track at OAEI

Hertling

Paulheim

2020

The Semantic Web

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“…At present, there are mainly three categories of EA models. The first group of studies merely harness the KG structure to align entities, and representative work includes [4,6,14]. The second category of methods iteratively label most likely aligned entity pairs as the additional training data and progressively enhance the alignment performance [22,41,42].…”

Section: Definition 3 (Entity Alignment)mentioning

confidence: 99%

Towards Knowledge Graphs Federations: Issues and Technologies

Zhao

2021

Communications in Computer and Information Science

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In recent decades, knowledge graph plays an increasingly significant role in intelligent information services. However, for some domains, knowledge graphs are constructed for special purposes and disconnected with each other, which fails to take advantage of knowledge from different knowledge graphs. To this end, we are motivated to propose the concept of knowledge graph federation. In this keynote, we first discuss the issues about knowledge graph federation, and then we introduce two technologies of automatic knowledge graph construction, i.e., relation extraction and entity alignment. The issues in this keynote will provide guidelines for the development of knowledge graph technology.

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“…Then several methods, such as ITransE [50], IPTransE [50] and BootEA [32] leverage the bootstrapping strategy to address the lack of labeled data. Further, semi-supervised approaches [18,26,27] were developed to utilize the unlabeled data for enhancing the performance of entity alignment. Moreover, several works consider to jointly model the structure and attribute information of KGs [6,31,34], or the structure and relation information [29,51] or the structure, relation and attribute information together [49]; 2) Graph Neural Network-based methods.…”

Section: Entity Alignmentmentioning

confidence: 99%

“…Existing methods are often designed to address the alignment problem in a supervised way with human-designed features [23] or with entity representations learned from KG embedding approaches [6,7,31,38]. Also, a few semi-supervised methods [18,26,27] were proposed to make use of unlabeled data to enhance the performance of supervised entity alignment. Supervised or semi-supervised alignment methods have made remarkable discovery of semantically related entities.…”

Section: Introductionmentioning

confidence: 99%

REA: Robust Cross-lingual Entity Alignment Between Knowledge Graphs

Pei

et al. 2020

Proceedings of the 26th ACM SIGKDD International Conference on Knowledge Discovery &Amp; Data Mining

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Cross-lingual entity alignment aims at associating semantically similar entities in knowledge graphs with different languages. It has been an essential research problem for knowledge integration and knowledge graph connection, and been studied with supervised or semi-supervised machine learning methods with the assumption of clean labeled data. However, labels from human annotations often include errors, which can largely affect the alignment results. We thus aim to formulate and explore the robust entity alignment problem, which is non-trivial, due to the deficiency of noisy labels. Our proposed method named REA (Robust Entity Alignment) consists of two components: noise detection and noise-aware entity alignment. The noise detection is designed by following the adversarial training principle. The noise-aware entity alignment is devised by leveraging graph neural network based knowledge graph encoder as the core. In order to mutually boost the performance of the two components, we propose a unified reinforced training strategy to combine them. To evaluate our REA method, we conduct extensive experiments on several real-world datasets. The experimental results demonstrate the effectiveness of our proposed method and also show that our model consistently outperforms the state-of-theart methods with significant improvement on alignment accuracy in the noise-involved scenario.

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Semi-supervised Entity Alignment via Joint Knowledge Embedding Model and Cross-graph Model

Cited by 113 publications

References 18 publications

The Knowledge Graph Track at OAEI

The Knowledge Graph Track at OAEI

Towards Knowledge Graphs Federations: Issues and Technologies

REA: Robust Cross-lingual Entity Alignment Between Knowledge Graphs

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