Abstract
Existing question answering systems struggle to answer factoid questions when geospatial information is involved. This is because most systems cannot accurately detect the geospatial semantic elements from the natural language questions, or capture the semantic relationships between those elements. In this paper, we propose a geospatial semantic encoding schema and a semantic graph representation which captures the semantic relations and dependencies in geospatial questions. We demonstrate that our proposed graph representation approach aids in the translation from natural language to a formal, executable expression in a query language. To decrease the need for people to provide explanatory information as part of their question and make the translation fully automatic, we treat the semantic encoding of the question as a sequential tagging task, and the graph generation of the query as a semantic dependency parsing task. We apply neural network approaches to automatically encode the geospatial questions into spatial semantic graph representations. Compared with current template-based approaches, our method generalises to a broader range of questions, including those with complex syntax and semantics. Our proposed approach achieves better results on GeoData201 than existing methods.
Highlights
Geospatial data accounts for a significant fraction of available web data, with broad applications in areas including geospatial search and question answering (QA)
We propose a novel geospatial semantic graph representation to capture the semantic relations between the elements
We demonstrated the utility of a neural method for factoid geospatial question answering
Summary
Geospatial data accounts for a significant fraction of available web data, with broad applications in areas including geospatial search and question answering (QA). This fraction is growing by 20 percent or more each year [40]. Most people do not have expertise in geographic information retrieval and knowledge bases, meaning that the most naturalistic interface is natural language, in the form of natural language questions. Automatic QA systems aim to provide a way for people to ask questions in natural language and get natural language answers, based either on answer extraction from documents or querying over a knowledge base. Systems that can automatically answer geospatial questions are called geographic question answering (“GQA”) systems [55]
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