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Interpreting and extracting open knowledge for human-robot interaction

Dongcai Lu, Xiaoping Chen

Year
2017
Citations
10

Abstract

A more natural way for non-expert users to express their tasks in an open-ended set is to use natural language. In this case, a human-centered intelligent agent/robot is required to be able to understand and generate plans for these naturally expressed tasks. For this purpose, it is a good way to enhance intelligent robot's abilities by utilizing open knowledge extracted from the web, instead of hand-coded knowledge. A key challenge of utilizing open knowledge lies in the semantic interpretation of the open knowledge organized in multiple modes, which can be unstructured or semi-structured, before one can use it. Previous approaches used a limited lexicon to employ combinatory categorial grammar (CCG) as the underlying formalism for semantic parsing over sentences. Here, we propose a more effective learning method to interpret semi-structured user instructions. Moreover, we present a new heuristic method to recover missing semantic information from the context of an instruction. Experiments showed that the proposed approach renders significant performance improvement compared to the baseline methods and the recovering method is promising.

Keywords

Computer scienceNatural language processingArtificial intelligenceCombinatory categorial grammarNatural languageParsingSemantic interpretationRobotLexiconNatural language understanding

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