Document Type
Conference Proceeding
Publication Date
2017
Abstract
Representing world knowledge in a machine processable format is important as entities and their descriptions have fueled tremendous growth in knowledge-rich information processing platforms, services, and systems. Prominent applications of knowledge graphs include search engines (e.g., Google Search and Microsoft Bing), email clients (e.g., Gmail), and intelligent personal assistants (e.g., Google Now, Amazon Echo, and Apple’s Siri). In this paper, we present an approach that can summarize facts about a collection of entities by analyzing their relatedness in preference to summarizing each entity in isolation. Specifically, we generate informative entity summaries by selecting: (i) inter-entity facts that are similar and (ii) intra-entity facts that are important and diverse. We employ a constrained knapsack problem solving approach to efficiently compute entity summaries. We perform both qualitative and quantitative experiments and demonstrate that our approach yields promising results compared to two other stand-alone state-of-the-art entity summarization approaches.
Repository Citation
Gunaratna, K.,
Yazdavar, A. H.,
Thirunarayan, K.,
Sheth, A.,
& Cheng, G.
(2017). Relatedness-based Multi-Entity Summarization. .
https://corescholar.libraries.wright.edu/knoesis/1138
Included in
Bioinformatics Commons, Communication Technology and New Media Commons, Databases and Information Systems Commons, OS and Networks Commons, Science and Technology Studies Commons
Comments
Presented at the International Joint Conference on Artificial Intelligence 2017 (IJCAI-17). Melbourne, Australia. August 19-25, 2017.