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Erschienen in:
AI-Based Assistance for Management of Oral Community Knowledge in Low-Resource and Colloquial Kannada Language Kapitel lesen Erstes Kapitel lesen

2024 | OriginalPaper | Buchkapitel

Efficient Knowledge Graph Embeddings via Kernelized Random Projections

verfasst von : Nidhi Goyal, Anmol Goel, Tanuj Garg, Niharika Sachdeva, Ponnurangam Kumaraguru

Erschienen in: Big Data Analytics in Astronomy, Science, and Engineering

Verlag: Springer Nature Switzerland

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Abstract

Knowledge Graph Completion (KGC) aims to predict missing entities or relations in knowledge graph but it becomes computationally expensive as KG scales. Existing research focuses on bilinear pooling-based factorization methods (LowFER, TuckER) to solve this problem. These approaches introduce too many trainable parameters which obstruct the deployment of these techniques in many real-world scenarios. In this paper, we introduce a novel parameter-efficient framework, KGRP which a) approximates bilinear pooling using Kernelized Random Projection matrix b) employs CNN for the better fusion of entities and relations to infer missing links. Our experimental results show that KGRP has 73% fewer parameters as compared to the state-of-the-art approaches (LowFER, TuckER) for the knowledge graph completion task while retaining 88% performance for the best baseline. Furthermore, we also provide novel insights on the interpretability of relation embeddings. We also test the effectiveness of KGRP on a large-scale recruitment knowledge graph of 0.25M entities.

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Vorheriges Kapitel Vayu Vishleshan: AQI Monitoring and Reduction Analysis
Nächstes Kapitel From Silos to Unity: Seamless Cross-Platform Gaming by Leveraging Blockchain Technology
Fußnoten
1
We will use the terms ‘Knowledge Graph Completion’ and ‘Link Prediction’ interchangeably in the manuscript.
 
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Metadaten
Titel
Efficient Knowledge Graph Embeddings via Kernelized Random Projections
verfasst von
Nidhi Goyal
Anmol Goel
Tanuj Garg
Niharika Sachdeva
Ponnurangam Kumaraguru
Copyright-Jahr
2024
Buch
Big Data Analytics in Astronomy, Science, and Engineering

Print ISBN: 978-3-031-58501-2

Electronic ISBN: 978-3-031-58502-9

Copyright-Jahr: 2024

DOI
https://doi.org/10.1007/978-3-031-58502-9_14

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