$$%% examples \newcommand{\exGraph}{\graph_{\mathrm{ex}}} \newcommand{\exOnto}{\onto_{\mathrm{ex}}} \newcommand{\exMappings}{\mappings_{\mathrm{ex}}} \newcommand{\exExtensions}{\extensions_{\mathrm{ex}}} \newcommand{\exRule}{r_{\mathrm{ex}}} \newcommand{\RDFSrules}{\rules_{\mathrm{RDFS}}} %% RDF \newcommand{\triple}[3]{(#1, #2, #3)} \newcommand{\tuple}[1]{\langle #1 \rangle} \newcommand{\subject}{\mathtt{s}} \newcommand{\prop}{\mathtt{p}} \newcommand{\object}{\mathtt{o}} \newcommand{\blank}{\_{:}b} \newcommand{\blankn}[1]{\_{:}#1} \newcommand{\irin}[1]{{:}\mathrm{#1}} \newcommand{\class}{\mathtt{c}} \newcommand{\nsrdf}{\mathrm{rdf{:}}} \newcommand{\nsrdfs}{\mathrm{rdfs{:}}} \newcommand{\rdftype}{\mathrm{rdf{:}type}} \newcommand{\rdfLiteral}{\mathrm{rdf{:}Literal}} \newcommand{\rdfssubClassOf}{\mathrm{rdfs{:}subClassOf}} \newcommand{\rdfssubPropertyOf}{\mathrm{rdfs{:}subPropertyOf}} \newcommand{\rdfsdomain}{\mathrm{rdfs{:}domain}} \newcommand{\rdfsrange}{\mathrm{rdfs{:}range}} \newcommand{\rdfsClass}{\mathrm{rdfs{:}Class}} \newcommand{\rdfProperty}{\mathrm{rdf{:}Property}} \newcommand{\xsdint}{\mathrm{xsd{:}int}} %% \newcommand{\type}{\tau} \newcommand{\subclass}{\prec_{sc}} \newcommand{\subproperty}{\prec_{sp}} \newcommand{\domain}{\hookleftarrow_{d}} \newcommand{\range}{\hookrightarrow_{r}} \newcommand{\rdfentailment}{\vdash_{^\mathrm{RDF}}} \newcommand{\RDFS}[1]{\mathrm{RDFS}(#1)} \newcommand{\aka}{a.k.a.~} \newcommand{\etc}{etc} \newcommand{\wrt}{w.r.t.~} \newcommand{\st}{s.t.~} \newcommand{\ie}{i.e.,~} \newcommand{\eg}{e.g.,~} \newcommand{\graph}{G} \newcommand{\rules}{\mathcal{R}} \newcommand{\sources}{\mathcal{S}} \newcommand{\views}{\mathcal{V}} \newcommand{\extensions}{\mathcal{E}} \newcommand{\onto}{\mathcal{O}} \newcommand{\mappings}{\mathcal{M}} \newcommand{\modelsrdf}{\models_\rules} \newcommand{\bgp}{P} \newcommand{\Bl}[1]{\mathrm{Bl}(#1)} \newcommand{\Val}[1]{\mathrm{Val}(#1)} \newcommand{\Var}[1]{\mathrm{Var(#1)}} \newcommand{\ext}[1]{\mathrm{ext}(#1)} \newcommand{\cert}{\mathrm{cert}} \newcommand{\ans}{\mathrm{ans}} \newcommand{\query}{\leftarrow} \newcommand{\body}[1]{\textrm{body}(#1)} \newcommand{\head}[1]{\textrm{head}(#1)} \newcommand{\cs}{\mathrm{cs}} \newcommand{\lcs}{\mathrm{lcs}} \newcommand{\cl}{\mathrm{cl}} \newcommand{\lua}{\mathrm{lua}} \newcommand{\lur}{\mathrm{lur}} \newtheorem{lemma}{Lemma} \newtheorem{definition}{Definition} \newtheorem{problem}{Problem} \newtheorem{property}{Property} \newtheorem{corollary}{Corollary} \newtheorem{example}{Example} \newtheorem{theorem}{Theorem} \newcommand{\URIs}{\mathscr U} \newcommand{\IRIs}{\mathscr I} \newcommand{\BNodes}{\mathscr B} \newcommand{\Literals}{\mathscr L} \newcommand{\Variables}{\mathscr V} % DB \newcommand{\CQ}{\ensuremath{\mathtt{CQ}}\xspace} \newcommand{\UCQ}{\ensuremath{\mathtt{UCQ}}\xspace} \newcommand{\SQL}{\ensuremath{\mathtt{SQL}}\xspace} \newcommand{\rel}[1]{\mathsf{#1}} % Cost model \newcommand{\cans}[1]{|#1|_t} \newcommand{\cref}[1]{|#1|_r} \newcommand{\db}{\mathtt{db}} % DL \newcommand{\cn}{\ensuremath{N_{C}}\xspace} \newcommand{\rn}{\ensuremath{N_{R}}\xspace} \newcommand{\inds}{\ensuremath{N_{I}}\xspace} \newcommand{\ainds}{\ensuremath{\mathrm{Ind}}\xspace} \newcommand{\funct}{\mathit{funct} \ } \newcommand{\KB}{\mathcal{K}\xspace} \newcommand{\dlr}{DL-Lite$_{\mathcal{R}}$\xspace} % Logics \newcommand{\FOL}{\ensuremath{\mathtt{FOL}}\xspace} \newcommand{\datalog}{\ensuremath{\mathtt{Datalog}}\xspace} \newcommand{\dllite}{DL-Lite\xspace} \newcommand{\true}{\mathrm{true}} \newcommand{\false}{\mathrm{false}} \newcommand{\dis}{\mathtt{dis}} \newcommand{\vars}[1]{\ensuremath{\mathrm{vars}(#1)}} %\newcommand{\terms}[1]{\ensuremath{\mathrm{terms}(#1)}} %math \renewcommand{\phi}{\varphi} \newcommand\eqdef{\stackrel{\mathclap{\normalfont\mbox{def}}}{=}} \newcommand\restr[2]{#1_{|#2}} \newcommand{\ontoBody}[1]{\mathrm{body}_\onto(#1)} %proof of the rewriting theorem \newcommand{\rdfGraph}{\graph^{\mappings}_{\extensions}} \newcommand\systemGraph{\graph^{\mappings \cup \mappings^{\text{STD}}_\onto}_{\extensions \cup \extensions_\onto}} \newcommand\viewsGraph{\graph^{\mappings^{\rules,\onto} \cup \mappings^{\text{STD}}_\onto}_{\extensions \cup \extensions_\onto}} \newcommand{\standMappings}{\mappings^{\text{STD}}_\onto} \newcommand{\reminder}[1]{[\vadjust{\vbox to0pt{\vss\hbox to0pt{\hss{\Large $\Longrightarrow$}}}}{{\textsf{\small #1}}}]} %\newcommand{\FG}[1]{\textcolor{blue}{\reminder{FG:~#1}}} \newcommand{\extVersion}{false} \newcommand{\printIfExtVersion}[2] { \ifthenelse{\equal{\extVersion}{true}}{#1}{} \ifthenelse{\equal{\extVersion}{false}}{#2}{} } \newcommand{\bda}{\true} \newcommand{\ifBDA}[2]% {% \ifthenelse{\equal{\bda}{true}}{#1}{}% \ifthenelse{\equal{\bda}{false}}{#2}{}% } %%% Local Variables: %%% TeX-master: "paper" %%% End: $$

Generate Classes Using Mapping

The aim of the post is to show how we can generate/induced new classes using GAV mapping. Specially, we will see how GAV mappings, having the following form, can be supported in the different Query Answering approaches:

\[q(x,y) \leftarrow \triple{x}{\type}{y}\] \[q(y) \leftarrow \triple{y}{\subclass}{C}\] \[q(y) \leftarrow \triple{C}{\subclass}{y}\]

We are not able to handle to generate properties using mapping of the following form: \[q(x,y,z) \leftarrow \triple{x}{y}{z}.\]

In fact, using this mappings will allow us to generated triples such as \(\triple{\subclass}{\subclass}{\subclass}\), which is an RDFS triple and is not allowed in FO Ontology. Such triple breaks the results proven using RIS.

This work pintoMappingDataHigherOrder is about enabling mappings in OBDA that allow to generate classes from data in the source.

../../all.bib