Workshop Notes The IJCAI-09 Workshop on Automated Reasoning about Context and Ontology Evolution ARCOE-09 July 11-12, 2009 Pasadena, California, USA held at the International Joint Conference on Artificial Intelligence Co-Chairs Alan Bundy Jos Lehmann Guilin Qi Ivan José Varzinczak AAAI Press IntroductiontotheNotesoftheIJCAI-09WorkshopARCOE-09 Automated Reasoning about Context and Ontology Evolution AlanBundya,JosLehmanna,GuilinQib,IvanJose´ Varzinczakc a SchoolofInformatics,UniversityofEdinburgh b InstituteAIFB,UniversitaetKarlsruhe c MerakaInstitute,Pretoria,SouthAfrica MethodsofautomatedreasoninghavesolvedalargenumberofproblemsinComputerSciencebyusing formalontologiesexpressedinlogic.Overtheyears,though,eachproblemorclassofproblemshasrequired adifferentontology,andsometimesadifferentversionoflogic.Moreover,theprocessesofconceiving,con- trollingandmaintaininganontologyanditsversionshaveturnedouttobeinherentlycomplex. Allthishas motivatedmuchinvestigationinawiderangeofdisparatedisciplinesabouthowtorelateontologiestoone another. TheIJCAI-09WorkshopARCOE-09bringstogetherresearchersandpractitionersfromcoreareasofArtifi- cialIntelligence(e.g. KnowledgeRepresentationandReasoning,Contexts,andOntologies)todiscussthese kindsofproblemsandrelevantresults. Historically, therehavebeenatleastthreedifferent, yetinterdependentmotivationsbehindthistypeofre- search:providingsupporttoontologyengineers,especiallyinmodelingCommonSenseandNon-Monotonic Reasoning; defining the relationship between an ontology and its context; enhancing problem solving and communicationforsoftwareagents,oftenbyallowingfortheevolutionoftheverybasisoftheirontologies orontologylanguages. ARCOECallforAbstractshasbeenformulatedagainstsuchhistoricalbackground.SubmissionstoARCOE- 09havebeenreviewedbytwotothreeChairsorPCmembersandrankedonrelevanceandquality.Approx- imately seventy-five percent of the submissions have been selected for presentation at the workshop and for inclusion in these Workshop Notes. Accordingly, the abstracts are here grouped in three sections and sequencedwithineachsectionbytheirorderofsubmission. CommonSenseandNon-MonotonicReasoning Ontologyengineersarenotsupposedtosucceedright fromthebeginningwhen(individuallyorcollaboratively)developinganontology.Despitetheirexpertiseand anyassistancefromdomainexperts,revisioncyclesaretherule. Researchontheautomationoftheprocess ofengineeringanontologyhasimprovedefficiencyandreducedtheintroductionofunintendedmeaningsby meansofinteractiveontologyeditors. Moreover,ontologymatchinghasstudiedtheprocessofmanual,off- linealignmentoftwoormoreknownontologies.Thefollowingworksfocusonthedevelopmentofrevision techniquesforlogicswithlimitedexpressivity. Ribeiro,Wasserman.AGMRevisioninDescriptionLogics. Wang,Wang,Topor.ForgettingforKnowledgeBasesinDL-Litebool. Moguillansky,WassermannInconsistent-TolerantDL-LiteReasoning:AnArgumentativeApproach. Booth,Meyer,Varzinczak.FirstStepsinELContraction. Context and Ontology Most application areas have recognized the need for representing and reasoning aboutknowledgethatisdistributedovermanyresources. Suchknowledgedependsonitscontext, i.e., on thesyntacticand/orsemanticstructureofsuchresources. Researchoninformationintegration, distributed knowledgemanagement,thesemanticweb,multi-agentanddistributedreasoninghavepinneddowndifferent aspectsofhowontologiesrelatetoand/ordevelopwithintheircontext. Thefollowingworksconcentrateon therelationshipbetweencontextsandontologies. Ptaszynski,Dybala,Shi,Rzepka,Araki.ShiftingValenceHelpsVerifyContextualAppropriatenessofEmo- tions. Kutz,Normann.ContextDiscoveryviaTheoryInterpretation. Redavid,Palmisano,Iannone.ContextualizedOWL-DLKBforthemanagementofOWL-Seffects. Sboui,Be´dard,Brodeur,BadardModelingtheExternalQualityofContexttoFine-tuneContextReasoning inGeo-spatialInteroperability. Qi,Ji,Haase.AConflict-basedOperatorforMappingRevision. AutomatedOntologyEvolution Agentsthatcommunicatewithoneanotherwithouthavingfullaccessto theirrespectiveontologiesorthatareprogrammedtofacenewnon-classifiablesituationsmustchangetheir ownontologydynamicallyatrun-time–theycannotrelyonhumanintervention. Researchonthisproblem haseitherconcentratedonnon-monotonicreasoningandbeliefrevisionoronchangesofsignature,i.e.,ofthe grammaroftheontology’slanguage,withaminimaldisruptiontotheoriginaltheory. Thefollowingworks concentrateonAutomatedOntologyEvolution,anareawhichinrecentyearshasbeendrawingtheattention ofArtificialIntelligenceandKnowledgeRepresentationandReasoning. Bundy.Unite:ANewPlanforAutomatedOntologyEvolutioninPhysics. Chan,Bundy.AnArchitectureofGALILEO:ASystemforAutomatedOntologyEvolutioninPhysics. Lehmann.ACaseStudyofOntologyEvolutioninAtomicPhysicsastheBasisoftheOpenStructureOntol- ogyRepairPlan. Jouis,Habib,Liu.AtypicalitiesinOntologies:InferringNewFactsfromTopologicalAxioms. Thanks to the invaluable and much appreciated contributions of the Program Committee, the Invited Speakers and the authors, ARCOE-09 provides participants with an opportunity to position various ap- proaches with respect to one another. Hopefully, though the workshop and these Notes will also start a process of cross-pollination and set out the constitution of a truly interdisciplinary research-community dedicatedtoautomatedreasoningaboutcontextsandontologyevolution. (Edinburgh,Karlsruhe,Pretoria–May2009) ARCOE-09Co-Chairs AlanBundy(UniversityofEdinburgh,UK) JosLehmann(UniversityofEdinburgh,UK) GuilinQi(Universita¨tKarlsruhe,Germany) IvanJose´Varzinczak(MerakaInstitute,SouthAfrica) ARCOE-09InvitedSpeakers FranzBaader(TechnischeUniversita¨tDresden,Germany) DeborahMcGuinness(RensselaerPolytechnicInstitute,USA) ARCOE-09ProgramCommittee RichardBooth(Ma´ha˘aW´ıtta´yaalaiMahasarakham,Thailand) PaoloBouquet(Universita`diTrento,Italy) Je´roˆmeEuzenat(INRIAGrenobleRhoˆne-Alpes,France) ChiaraGhidini(FBKFondazioneBrunoKessler,Italy) AlainLeger(FranceTelecomR&D,France) DeborahMcGuinness(RensselaerPolytechnicInstitute,USA) ThomasMeyer(MerakaInstitute,SouthAfrica) MauricePagnucco(TheUniversityofNewSouthWales,Australia) ValeriadePaiva(PaloAltoResearchCenter(PARC),USA) LucianoSerafini(FBKFondazioneBrunoKessler,Italy) PavelShvaiko(TasLab,InformaticaTrentinaS.p.A.,Italy) JohnF.Sowa(VivoMindIntelligence,Inc.,RockvilleMD,USA) HolgerWache(FachhochschuleNordwestschweiz,Switzerland) RenataWassermann(UniversidadedeSa˜oPaulo,Brazil) Table of Contents Martin O. Moguillansky and Renata Wassermann Inconsistent-Tolerant DL-Lite Reasoning: An Argumentative Approach…………………….…...…...7-9 Zhe Wang, Kewen Wang and Rodney Topor Forgetting for Knowledge Bases in DL-Lite .……………………………………………….………10-12 bool Márcio Ribeiro and Renata Wassermann AGM Revision in Description Logics……………………………………………….…………………13-15 Richard Booth, Thomas Meyer and Ivan Varzinczak First Steps in EL Contraction..………………………………………………………………...………16-18 Michal Ptaszynski, Pawel Dybala, Wenhan Shi Rafal Rzepka and Kenji Araki Shifting Valence Helps Verify Contextual Appropriateness of Emotions…………………………...…19-21 Oliver Kutz and Immanuel Normann Context Discovery via Theory Interpretation…….……………………………………………..……...22-24 Domenico Redavid, Ignazio Palmisano and Luigi Iannone Contextualized OWL-DL KB for the Management of OWL-S Effects………………………….………25-27 Tarek Sboui, Yvan Bédard, Jean Brodeur and Thierry Badard Modeling the External Quality of Context to Fine-tune Context Reasoning in Geo-spatial Interoperability…………………………………………….……………….28-30 Guilin Qi, Qiu Ji and Peter Haase A Conflict-based Operator for Mapping Revision…………………………………….……………….31-33 Alan Bundy Unite: A New Plan for Automated Ontology Evolution in Physics……………………………….……34-36 Michael Chan and Alan Bundy Architecture of GALILEO: A System for Automated Ontology Evolution in Physics…………………………………………………………………….…….………..37-39 Jos Lehmann A Case Study of Ontology Evolution in Atomic Physics as the Basis of the Open Structure Ontology Repair Plan…….……………………………………………………40-42 Christophe Jouis, Bassel Habib and Jie Liu Atypicalities in Ontologies: Inferring New Facts from Topological Axioms………………………….43-45 ARCOE-09 Workshop Notes Inconsistent-TolerantDL-Lite Reasoning: An ArgumentativeApproach Mart´ınO.Moguillansky RenataWassermann ScientificResearch’sNationalCouncil(CONICET) DepartmentofComputerScience(DCC) AIResearchandDevelopmentLab(LIDIA) InstituteofMathematicsandStatistics(IME) DepartmentofComputerScienceandEng.(DCIC) UniversityofSa˜oPaulo(USP),BRAZIL. UniversidadNacionaldelSur(UNS),ARGENTINA. [email protected] [email protected] R(cid:6)Eforroles;andafinitesetoffunctionalrestrictionsof theform(functR). AssumingthesetsN ofvariablesand V 1 Introduction NCofconstantnames,anABoxiscomposedbyafinitesetof membershipassertionsonatomicconceptsandatomicroles, Thisarticleisdevotedtotheproblemofreasoningoverin- oftheformA(a)andP(a,b),where{a,b}⊆N . consistentontologiesexpressedthroughthedescriptionlogic C AsusualinDLs,semanticsisgivenintermsofinterpreta- DL-Lite[Calvaneseetal.,2007]. Aspecializedargumenta- tionsI =(ΔI,·I). Reasoningservices(RS)representlogi- tion machinery is proposed through which DL-Lite knowl- calimplicationsofKBassertionsverifying: edge bases (KB) may be reinterpreted a` la argumentation. SuchmachineryarisesfromthereificationtoDL-Liteofthe (subsumption) Σ|=C1(cid:6)C2orΣ|=E1(cid:6)E2; argumentationframeworkintroducedin[Moguillanskyetal., (functionality) Σ|=(functR)orΣ|=¬(functR);and 2008a], which in turnwas formalizedontop of the widely (queryanswering) Σ|=q(x¯). acceptedDung’sargumentationframework[Dung,1995]. A Aconjunctivequeryq(x¯),withatuplex¯ ∈ (N )n ofar- pcorenlsimistiennatryonitnovleosgtyigeavtioolnuttioonhoafndAleLContthorloouggyhdaerbguugmgeinntgatainodn izt1y=nz2≥, o0r,z1is(cid:8)=azn2,onwheemreptCy saentdoEf aatoremrsesCp(ezc)ti,veEVly(za1,gze2n)-, waspresentedin[Moguillanskyetal.,2008a]. Butthispro- eralconceptandageneralroleofΣ,andsomeofthenames pctooonsraseilassatoeimnncisnygarteoshvtaeonrrdaotlniiontongl.oognAiteorsglouagmpypeeneavtraotaliuostniaotnpecrwohmnitihiqsusnoeosrynaefpuepdsliioeondf tx{¯hz.e,Wzfu1h,nezcn2ti}ox¯n⊆ivsatNhreC:e∪(mNNpVt)Vynt−aur→pele2c,NonVnostiodfreierdeeednvtaiirnfiyax¯bt.hleesWvaaerreiwacbiolllnessuisdine- toworkincertaindomainsinwhichitismandatorytoavoid eredandthequeryisidentifiedasboolean. Intuitively,q(x¯) loosinganykindofknowledgedisregardinginconsistencies. representsthe conjunctionof its elements. Let I bean in- Therefore,weprovidethetheoryforaninconsistent-tolerant terpretation, and m : var(x¯)∪N −→ΔI a total function. argumentationDL-Litereasoner,andfinallythematterofon- If z ∈ N then m(z) = zI otheCrwise m(z) = a ∈ ΔI. tologydynamicsisreintroduced. We writeCI |=m C(z) if m(z) ∈ CI, I |=m E(z1,z2) if (m(z1),m(z2)) ∈ EI, I |=m (z1=z2) if m(z1)=m(z2), 2 DL-LiteBriefOverview andI |=m (z1(cid:8)=z2) if m(z1)(cid:8)=m(z2). If I |=m φ forall Next we describe in a very brief manner the language φ∈q(x¯),wewriteI |=mq(x¯)andcallmamatchforIand DL-LiteA used to representDL-Lite knowledge. In the se- q(x¯).WesaythatIsatisfiesq(x¯)andwriteI|=q(x¯)ifthere quelwewillwriteφ∈DL-LiteA,orΣ⊆DL-LiteA,toiden- isamatchmforI andq(x¯). IfI |= q(x¯)forallmodelsI tifyaDL-Liteassertionφ,andaDL-LiteknowledgebaseΣ, ofaKBΣ,wewriteΣ |= q(x¯)andsaythatΣentailsq(x¯). respectively. For full details about DL-Lite please refer to NotethatthewellknowninstancecheckingRS(Σ |= C(a) [Calvaneseetal.,2007].ConsidertheDL-Litegrammar: orΣ|=E(a,b))isgeneralizedbyqueryanswering. Finally, B−→A|∃R C−→B|¬B R−→P|P− E−→R|¬R theknowledgebasesatisfiabilityRS(whethertheKBadmits atleastonemodel)willbediscussedinSect.4. whereAdenotesanatomicconcept,P anatomicrole, P− theinverseoftheatomicroleP,andBabasicconceptthatis 3 TheArgumentationDL-LiteReasoner eitheratomicorconformingto∃R,whereRdenotesabasic rolethatiseitheratomicoritsinverse. Finally,C denotesa Weareparticularlyinterestedinhandlingthereasoningser- (general)concept,whereasEdenotesa(general)role. vices presented before. This will be achieved through the AKBΣdetailstherepresentedknowledgeintermsofthe claimofanargument. Intuitively,anargumentmaybeseen intensionalinformationdescribedintheTBoxT,andtheex- as a set of interrelated pieces of knowledgeprovidingsup- tensional,intheABoxA. ATBoxisformedbyafiniteset port to a claim. Hence, the claim should take the form of ofinclusionassertionsoftheformB (cid:6)Cforconcepts,and anypossibleRS,andtheknowledgeinsideanargumentwill berepresentedthroughDL-LiteA assertions. Thenotionof Writtenduringthefirstauthor’svisittoUSP,financedbyLACCIR. argumentwillrelyonthelanguageforclaims: 7 ARCOE-09 Workshop Notes Lcl−→C1(cid:6)C2|E1(cid:6)E2|(functR)|¬(functR)|q(x¯) P(cid:2)(cid:6)P},¬(functP)(cid:11). Finally,coherency-negationoffunc- Anargumentisdefinedasastructureimplyingtheclaim tionalassertionsisnotallowed,whereasnegationofqueries fromaminimalconsistentsubsetofΣ,namelythebody. isonlyallowedforsingletons,i.e.,|q(x¯)|=1. DguemfineinttioBni1s(aAsrtgruumctuernet)(cid:10)ΔG,ivβe(cid:11)n,awKheBreΣΔ⊆⊆DLΣ-LiistetAhe,abnoadry-, leaCdosmtopathriengnotthioenaorgfuamtteanctkswinhvioclhveudsuianllyarceolineflsicotnivaenpaari-r βand∈(L3)cl(cid:2)Xthe⊂claΔim:,Xan|d=itβh.oWldess(a1y)thΔat|=Bsβu,p(p2o)rtΔsβ(cid:8)|=. T⊥he, gdeucmideendtcifomthpeacroisuonntecrrairtgeurimone.ntTphrervoauiglshfsruocmhacrciotenrflioicnt,,iatnids domainofargumentsfromΣisidentifiedthroughthesetAΣ. hapepreeianrsthteoasttpaecckifeyndsuscuhpcidrietenrtiiofine.d.IAnvgaernieetryalo,fthaelteqrunaantitvietys Consider a KB Σ and an RS α ∈ Lcl, the argumenta- and/orqualityofknowledgeissomehowweightedtoobtain tive DL reasoner verifies Σ |= α if there exists (cid:10)Δ,β(cid:11) ∈ a confidencerate of an argument. The exhaustive analysis AΣ such that β unifies with α and (cid:10)Δ,β(cid:11) is warranted. goesbeyondthescopeofthisarticle,henceanabstractargu- An argument is warranted if it ends up accepted (or un- mentcomparisoncriterion“(cid:16)”willbeassumed. Thenotion defeated) from the argumentation interplay. This notion ofattackisbasedonthecriterion“(cid:16)”overconflictivepairs. will be made clear in the sequel. Primitive arguments are Definition3(Attack) Givenaconflictivepairofarguments fat(cid:10)hu{onApscr(etiaimow)ni}tha,iovl{seaAes(sabaerorg)t}duio(cid:11)ym.necΣsno(tn|=fsu(cid:10)ins{(tcf(sutfuRnoncf)tctRcthRae)n)ic}sbl,eas(iifmpmuapnriltctystoeRvflef)a,r(cid:11)ni.ffioaerrdgBiutnhemsrstoieadunnegtcs’hes, Baorf1gBu∈1mA(eoΣnrtaBann1ddisBBd22e(cid:16)∈feBaAt1Σedh,oBblyd2sBd.e2Af)e,ragntuosmtBeed1natisBffB2B2is(cid:5)→2siaBsit1dh.aecdoeufenateterr- body. For instance, Σ |= ¬P(a,c) is verified through ei- Assaidbefore,thereasoningmethodologyweproposeis theranargument(cid:10){P(a,b),(functP)},{¬P(a,z),z (cid:8)= b}(cid:11), basedontheanalysisofthewarrantstatusofthearguments or(cid:10){P(b,c),(functP−)},{¬P(z,c),z(cid:8)=a}(cid:11),withz∈N . givingsupporttotherequiredRS.Thisisthebasisofdialec- V Observethatz(cid:8)=bandz(cid:8)=aarededucedfrom(2)inDef.1. tical argumentation[Chesn˜evar and Simari, 2007]. An ar- Once an argument supporting the required RS is identi- gumentationlinemaybeseenastherepeatedinterchangeof fied,theargumentationgamebegins: arepeatedinterchange argumentsandcounterargumentsresemblingadialoguebe- of arguments and counterarguments (i.e.,arguments whose tweentwoparties,formally: claimposesajustificationtodisbelieveinanotherargument). Definition4(ArgumentationLine) Given the arguments Fromthestandpointoflogics,thisisinterpretedasacontra- B1,...,BnfromAΣ,anargumentationlineλisanon-empty dictionbetweenanargumentB1andacounterargumentB2. sequenceofarguments[B1,...,Bn]suchthatBi(cid:5)→Bi−1,for Suchcontradictioncouldappearwhileconsideringtheclaim 1<i≤n.WewillsaythatλisrootedinB1,andthatBnis of B2 along with some piece of informationdeduced from theleafofλ.Argumentsplacedonevenpositionsarereferred B1.Thereafter,B1andB2arereferredasaconflictivepair. ascon,whereasthoseonoddpositionswillbepro. Thedo- Definition2(Conflict) Two arguments (cid:10)Δ,β(cid:11) ∈ AΣ and mainofeveryargumentationlineformedthrougharguments (cid:10)Δ(cid:2),β(cid:2)(cid:11) ∈ AΣ are conflictive iff Δ |= ¬β(cid:2). Argument fromAΣisnotedasLΣ. (cid:10)Δ(cid:2),β(cid:2)(cid:11)isidentifiedasthecounterargument. We will considerLΣ to containonly argumentationlines Letusanalyzethe formationofcounterarguments. Con- that are exhaustive (lines only end when the leaf argument sidertheargument(cid:10){A (cid:6) B,B (cid:6) C,C (cid:6) D},A (cid:6) D(cid:11), hasnoidentifiabledefeaterfromAΣ),andacceptable(lines sinceA (cid:6) C isinferredfromitsbodyapossiblecounterar- whose configuration is compliant with the dialectical con- gumentcouldsupportan axiomlike ¬(A (cid:6) C). But how straints). Indialecticalargumentation,thenotionofdialec- couldnegatedaxiomsbeinterpretedinDLs? In[Flouriset ticalconstraints(DC)isintroducedtostateanacceptability al., 2006], negation of general inclusion axioms was stud- conditionamongtheargumentationlines. TheDCsassumed ied. Ingeneral,foranaxiomlikeB (cid:6) C,theconsistency- inthisworkwillincludenon-circularity(noargumentisrein- negationis ¬(B (cid:6) C) = ∃(B (cid:14)¬C) and the coherency- troducedinasameline),andconcordance(thesetofbodies negation∼(B (cid:6) C) = B (cid:6) ¬C. Fortheformer,although ofpro(resp.,con)argumentsinthesamelineisconsistent). theexistenceassertion∃(B(cid:14)¬C)(x)fallsoutofDL-LiteA, Adialecticaltreeappearswhenseveraldialoguesabouta it couldbe rewrittenas a queryq((cid:10)x(cid:11)) = {B(x),¬C(x)}. commonissue(i.e.,therootofthetree)aresettogether.Thus, Forinstance,thecounterargument(cid:10){B(a),A(a),A(cid:6)¬C}, fromaparticularsetofargumentationlines(namelybundle {B(a),¬C(a)}(cid:11)supportsq((cid:10)x(cid:11))withx = a. Ontheother set) the dialectical tree is formalized. A bundleset for B1 hand,coherency-negationissolvedbysimplylookingforan is the maximalset S(B1) ⊆ LΣ (wrt. set inclusion)of ex- argumentsupportingB (cid:6) ¬C. Recallthataninconsistent haustiveandacceptableargumentationlinessuchthatevery ontologyisthatwhichhasnopossibleinterpretation,whereas λ∈S(B1)isrootedinB1.Finally,adialecticaltreeis: anincoherentontology[Flourisetal.,2006]isthatcontaining Definition5(DialecticalTree) GivenaKBΣ⊆ DL-LiteA, atleastoneemptynamedconcept.Observethatincoherence a dialectical tree T(R) rooted in an argument R ∈ AΣ doesnotinhibittheontologyfrombeingsatisfiable. is determined by a bundle set S(R) ⊆ LΣ such that B is Weextendnegationofaxiomstofunctionalassertions,in- an inner node in a branch [R,...,B] of T(R) (resp., the terpreting¬(functR)asaroleRthatdoesnotconformtothe root argument) iff each child of B is an argument D ∈ definitionofafunction.Theonlyoptiontoformanargument [R,...,B,D,...] ∈ S(R)(resp.,D ∈ [R,D,...] ∈ S(R)). supporting such negation is through extensional informa- Leavesin T(R)andeachline inS(R), coincide. Thedo- tion(ABox). Forinstance,theargument(cid:10){P(a,b),P(cid:2)(a,c), mainofalldialecticaltreesfromΣwillbenotedasTΣ. 8 ARCOE-09 Workshop Notes Withalittleabuseofnotation,wewilloverloadthemem- wouldbesatisfiablefromourtheory.Ontheotherhand,what bershipsymbolwritingB ∈ λtoidentifyB fromtheargu- isexactlyasatisfiableKBfortheproposedreasoner?Ifthere mentationlineλ,andλ∈T(R)whenthelineλbelongsto isawarrantedargumentsupportinganRSαandthereisan- thebundlesetassociatedtothetreeT(R). Dialecticaltrees otherwarrantedargumentsupporting¬α,thentheKBwould allowtodeterminewhethertherootnodeofthetreeistobe beunsatisfiable.Anargumentationsystemfreeofsuchdraw- accepted(ultimatelyundefeated)orrejected(ultimatelyde- backswoulddependontheappropriatedefinitionofthecom- feated)asarationallyjustifiedbelief. Therefore,givenaKB parisonandwarrantingcriteria. Therequiredanalysisispart Σ⊆DL-LiteAandadialecticaltreeT(R),theargumentR∈ ofthefutureworkinthisdirection. AΣ is warranted from T(R) iff warrant(T(R)) = true. Argumentationwasstudiedin[WilliamsandHunter,2007] The warranting function warrant : TΣ−→{true,false} toharnessontologiesfordecisionmaking. Throughsuchar- willdeterminethestatusofthetreefromthemarkoftheroot gumentationsystemtheybasicallyallowtheaggregationof argument. Thisevaluationwillbeobtainedbyweightingall defeasiblerulestoenrichtheontologyreasoningtasks.Inour theinformationpresentinthetreethroughthemarkingfunc- approachanargumentativemethodologyisdefinedontopof tionmark:AΣ×LΣ×TΣ−→M. Suchfunctiondefinesthe theDL-reasoneraimingatreasoningaboutinconsistenton- acceptancecriterionappliedtoeachindividualargumentby tologies. Howeverourmainobjectivegoesfurtherbeyond: assigningto eachargumentin T(R)a markingvaluefrom to manage ontology evolution disregarding inconsistencies. thedomainM = [D,U]. Thisismorelikelytobedoneby Tosuchpurpose,atheoryofchangeisrequiredtobeapplied obtainingthemarkofaninnernodeofthetreefromitschil- overargumentationsystems.In[Moguillanskyetal.,2008b], dren(i.e.,itsdefeaters). Onceeachargumentinthetreehas atheorycapableofhandlingdynamicsofargumentsapplied beenmarked(includingtheroot)thewarrantingfunctionwill overdefeasiblelogicprograms(DeLP)[Garc´ıa andSimari, determinetheroot’sacceptancestatusfromitsmark.Hence, 2004] was presented under the name of Argument Theory warrant(T(R))=true iff mark(R,λ,T(R))=U. Change(ATC).Basically,dialecticaltreesareanalyzedtobe alteredinaformsuchthatthesamerootargumentendsup DELP (Defeasible Logic Programming) [Garc´ıa and warranted from the resulting program. Ongoing work also Simari,2004], isanargumentativemachineryforreasoning involvesthestudyofATContopofthemodelpresentedhere. overdefeasiblelogicprograms.Inthisarticlewewillassume theDELPmarkingcriterion.Thatis,(1)allleavesaremarked References U and(2)everyinnernodeBismarkedU iff everychildof BismarkedD,otherwise,BismarkedD. [Calvaneseetal.,2007] D. Calvanese, G. De Giacomo, Example1 ConsidertheKBΣandargumentsleadingtothe D.Lembo,M.Lenzerini,andR.Rosati.TractableReason- dialecticaltreedepictedbelowtoanswerΣ|=B(a). ingandEfficientQueryAnsweringinDescriptionLogics: Σ={A(cid:6)B,A(cid:6)C,C (cid:6)¬B,D(cid:6)A,A(a),C(b),D(b)} TheDL-Litefamily. JAR,39(3):385–429,2007. R=(cid:10){A(cid:6)B,A(a)},{B(a)}(cid:11) [Chesn˜evarandSimari,2007] C. Chesn˜evar and G. Simari. B =(cid:10){C(cid:6)¬B,A(cid:6)C,A(a)},{¬B(a)}(cid:11) ALattice-basedApproachtoComputingWarrantedBelief 1 B =(cid:10){D(cid:6)A,A(cid:6)B,C(b),D(b)},{C(b),B(b)}(cid:11) inSkepticalArgumentationFrameworks. InIJCAI,pages 2 B =(cid:10){A(cid:6)C,C (cid:6)¬B},A(cid:6)¬B(cid:11) 280–285,2007. 3 [Dung,1995] P.Dung. OntheAcceptabilityofArguments Assume λ1 = [R,B1,B2] and λ2 = [R,B3,B2]. Ob- and its Fundamental Role in Nonmonotonic Reasoning wseerlvleatshaBt,2Bo3fisBa3)cobuunttesrinacrgeuBm2e(cid:16)ntBo3fBis2d(aes- R atenldl.,L7o7g:3ic21P–r3og5r7a,m19m9i5n.gandn-personGames. Artif.In- Rduecgeadrdfirnogmλλ2,2,aBno3thcearnnjuosttiafitctaactikonB2to∈avλoi1d. B B [Flourisetal.,2006] G.Flouris, Z.Huang,J.Pan,D.Plex- B3attackingB2isthatnon-circularitywould 1 3 ousakis, and H. Wache. Inconsistencies, Negations and ChangesinOntologies.InAAAI,pages1295–1300,2006. beviolated. Followingthemarkingfunction, rsoinocteRB1is∈mλa1rkaendduBnd3e∈feaλt2eda.reTdheufse,attheed,trtheee B2 B2 [Gasribc´ılaeaLnodgSicimParorig,r2a0m0m4]inAg:.GAanrcA´ıargaunmdeGn.taStiivmeaAri.ppDroeafecah-. endsupwarrantingtheargumentRwhichsupportstheRS TPLP,4(1-2):95–138,2004. andthereforeΣ|=B(a)holds. [Moguillanskyetal.,2008a] M. Moguillansky,N.Rotstein, andM.Falappa.ATheoreticalModeltoHandleOntology 4 ConcludingRemarksandFutureWork Debugging&ChangeThroughArgumentation.InIWOD, AnovelDL-Litereasonerbasedonargumentationtechniques 2008. was proposed. The machinerypresented here is definedto [Moguillanskyetal.,2008b] M.Moguillansky,N.Rotstein, support the usual DL-Lite reasoning services, including an M. Falappa, A. Garc´ıa, and G. Simari. ArgumentThe- extensionoftheconjunctivequeriespresentedin[Calvanese oryChangeAppliedtoDefeasibleLogicProgramming.In et al., 2007]. In particular, the notion of satisfiability de- AAAI,pages132–137,2008. servesspecialattentionsinceitsmeaningrequirestoberein- [WilliamsandHunter,2007] M. Williams and A. Hunter. terpreted. Given that the argumentation machinery would Harnessing Ontologies for Argument-Based Decision- answerconsistentlydisregardingthepotentiallyinconsistent MakinginBreastCancer. ICTAI,2:254–261,2007. KB, a KB that is unsatisfiable for standard DL reasoners 9 ARCOE-09 Workshop Notes Forgetting for Knowledge Bases in DL-Lite bool ZheWang,KewenWangandRodneyTopor GriffithUniversity,Australia Abstract Inthispaper,weinvestigatetheissueofsemanticforget- tingforDL-LiteKBs. Themaincontributionsofthispaper WeaddresstheproblemoftermeliminationinDL- canbesummarizedasfollows: Liteontologiesbyadoptingtechniquesfromclas- sicalforgettingtheory. Specifically,wegeneralize • Weintroduceamodel-baseddefinitionofforgettingfor our previous results on forgetting in DL-Litecore DLKBs. Weinvestigatesomereasoningandexpress- TBox to forgetting in DL-Litebool KBs. We also ibilitypropertiesofforgetting,whichareimportantfor introduce query-based forgetting, a parameterized DL-Liteontologyreuseandmerging. definition of forgetting, which provides a unify- • We provide a resolution-like algorithm for forgetting ingframeworkfordefiningandcomparingdifferent aboutconceptsinDL-Litebool KBs. Thealgorithmcan definitionsofforgettinginDL-Liteontologies. alsobeappliedtoKBforgettinginDL-Litehorn,andto anyspecificquery-basedforgetting.Itisprovedthatthe 1 Introduction algorithmiscomplete. • Asageneralframeworkfordefiningandcomparingvar- Anontologyisaformaldescriptionoftheterminologicalin- iousnotionsofforgetting,weintroduceaparameterized formationofanapplicationdomain. Anontologyisusually forgettingbasedonquery-answering,bywhichagiven representedasaDLknowledgebase(KB),whichconsistsof collectionofqueriesdeterminestheresultofforgetting. aTBoxandanABox. AsontologiesinSemanticWebappli- Thus,ourapproachactuallyprovidesahierarchyoffor- cationsarebecominglargerandmorecomplex,achallenge gettingforDL-Lite. ishowtoconstructandmaintainlargeontologiesefficiently. Recently, ontology reuse and merging have received inten- 2 ForgettinginDL-Lite KnowledgeBases sive interest, and different approaches have been proposed. bool Amongseveralapproaches,theforgettingoperatorispartic- Inthissection,wedefinetheoperationofforgettingasigna- ularlyimportant,whichconcernstheeliminationoftermsin turefromaDL-LiteboolKB.Weassumethereaders’familiar- ontologies. Informally,forgettingisaparticularformofrea- itywithDL-Litebool. Forthesyntaxandsemanticsdetailsof soningthatallowsasetofattributesF (suchaspropositional DL-Litebool,thereadersshouldreferto[Artaleetal.,2007]. variables,predicates,conceptsandroles)inaKBtobedis- Let L and Lh, respectively, denote the languages DL- cardedorhiddeninsuchawaythatfuturereasoningonin- Litebool and DL-Litehorn. Without special mentioning, we formationirrelevanttoF willnotbeaffected.Forgettinghas use K to denote a KB in L and S a signature (a finite set beenwellinvestigatedinclassicallogic[LinandReiter,1994; of concept names and role names) in L. Our model-based Langetal.,2003]andlogicprogramming[EiterandWang, definition of forgetting in DL-Lite is analogous to the defi- 2008;Wangetal.,2005]. nitionforforgettinginclassicallogic[LinandReiter,1994; Efforts have also been made to define forgetting in DL- Langetal.,2003]. Lite[Kontchakovetal., 2008;Wangetal., 2008], afamily LetI1,I2betwointerpretationsofL.DefineI1∼S I2iff oflightweightontologylanguages. However,adrawbackin 1. ΔI1 =ΔI2,andaI1 =aI2foreachindividualnamea. theseapproachesisthatforgettingisdefinedonlyforTBoxes. Althoughasyntacticnotionofforgettinginontologiesisdis- 2. ForeachconceptnameAnotinS,AI1 =AI2. cussedin[Wangetal.,2008],nosemanticjustificationispro- 3. ForeachrolenameP notinS,PI1 =PI2. vided.Inmostapplications,anontologyisexpressedasaKB, whichisapairofaTBoxandanABox. Webelievethatfor- Clearly,∼Sisanequivalencerelation. gettingshouldbedefinedforDL-LiteKBsratherthanonly Definition1 WecallKBK(cid:2) aresultofmodel-basedforget- forTBoxes. Althoughitisnothardtoextendthedefinitions tingaboutSinKif: offorgettingtoKBs,oureffortsshowthatitisnon-trivialto • Sig(K(cid:2))⊆Sig(K)−S, extendresultsofforgettinginTBoxestoforgettinginKBs, duetotheinvolvementofABoxes. • Mod(K(cid:2))={I(cid:2)|∃I ∈Mod(K)s.t.I ∼S I(cid:2)}. 10