Abstract
AbstractOntology-mediated query answering is a popular paradigm for enriching answers to user queries with background knowledge. For querying the absence of information, however, there exist only few ontology-based approaches. Moreover, these proposals conflate the closed-domain and closed-world assumption and, therefore, are not suited to deal with the anonymous objects that are common in ontological reasoning. Many real-world applications, like processing electronic health records, also contain a temporal dimension and require efficient reasoning algorithms. Moreover, since medical data are not recorded on a regular basis, reasoners must deal with sparse data with potentially large temporal gaps. Our contribution consists of two main parts: In the first part, we introduce a new closed-world semantics for answering conjunctive queries (CQs) with negation over ontologies formulated in the description logic $${\mathcal E}{\mathcal L}{{\mathcal H}_ \bot }$$ , which is based on the minimal canonical model. We propose a rewriting strategy for dealing with negated query atoms, which shows that query answering is possible in polynomial time in data complexity. In the second part, we extend this minimal-world semantics for answering metric temporal CQs with negation over the lightweight temporal logic and obtain similar rewritability and complexity results.
Highlights
Ontology-mediated query answering (OMQA) allows using background knowledge for answering user queries, supporting data-focused applications offering search, analytics, or data integration functionality
Following the approach used for the atemporal case, we show that rooted Metric Temporal NCQs (MTNCQs) answering under minimal-world semantics is combined first-order rewritable
electronic health records (EHRs) and clinical trial criteria contain an inherent temporal component. We showed that such a setting cannot be handled adequately by existing logic-based approaches, mostly because they do not deal with closed-world negation over anonymous objects
Summary
Ontology-mediated query answering (OMQA) allows using background knowledge for answering user queries, supporting data-focused applications offering search, analytics, or data integration functionality. Metric temporal ontology languages have been investigated (Gutierrez-Basulto et al 2016; Baader et al 2017; Brandt et al 2018), which allow to replace ◊− in the above axiom with ◊[−8,0], that is, wearing the cast is required only if the leg was broken ≤ 8 time points (e.g. weeks) ago. We may want to select only patients who have not been diagnosed with cancer, but such information cannot be entailed from the given knowledge The culprit for this problem is the open-world semantics, which considers a cancer diagnosis possible unless it has been. We consider the problem of answering metric temporal queries over T ELH◊c,lhs,− knowledge bases (KBs) with the minimal-world semantics introduced in the first part of the paper. This paper extends the conference paper Borgwardt and Forkel (2019) by allowing nonrooted queries and extends parts of Borgwardt et al (2019) by providing full proofs of all results and improving some of the running examples
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