Fabien GANDON - INRIA - ACACIA Team - KMSS 2002

1. Fabien GANDON - INRIA - ACACIA Team - KMSS 2002 Ontology in a Nutshell • Introduction: simple examples • Example of problem: searching on a web • Example of natural intelligence: a human reaction • Example of artificial intelligence: a semantic web • Ontology: nature of the object • Fundamental definitions • Example of content and forms • Some examples of existing ontologies • Ontology: life-cycle of the object • Complete cycle and different stages • Contributions to supporting each stage At slogan-level !

2. Example of a search on the Web +book +hemingway Noise  Precision Missed  Recall Nice pubs in Nice The Old Book 12, R. Victor Hugo The White Swan 3 Av. Hemingway The Horseshoe Summary of the novel "The Old Man And The Sea" by Ernest Hemingway This new edition starts with a large historical introduction of the work • "What are the books from Hemingway?" Fabien.Gandon@sophia.inria.fr

3. Web to humans +book +sacks The Man Who Mistook His Wife for a Hat : And Other Clinical Tales byOliver W. Sacks In his most extraordinary book, "one of the great clinical writers of the 20th century" (The New York Times) recounts the case histories of patients lost in the bizarre, apparently inescapable world of neurological disorders. Oliver Sacks's The Man Who Mistook His Wife for a Hat tells the stories of individuals afflicted with fantastic perceptual and intellectual aberrations: patients who have lost their memories and with them the greater part of their pasts; who are no longer able to recognize people and common objects; who are stricken with violent tics and grimaces or who shout involuntary obscenities; whose limbs have become alien; who have been dismissed as retarded yet are gifted with uncanny artistic or mathematical talents. If inconceivably strange, these brilliant tales remain, in Dr. Sacks's splendid and sympathetic telling, deeply human. They are studies of life struggling against incredible adversity, and they enable us to enter the world of the neurologically impaired, to imagine with our hearts what it must be to live and feel as they do. A great healer, Sacks never loses sight of medicine's ultimate responsibility: "the suffering, afflicted, fighting human subject." Our rating : Find other books in : Neurology Psychology Search books by terms : Fabien.Gandon@sophia.inria.fr

4. Web to computers... ethopztro90nfn rpg fvraetofqj8IKIo rvàzerg,ùzeù*aefp,ksr=-)')&ù a0m%é&£ µzT3&§ µ9^.a£P< UIDZIk brfg^ aergip^àfbknaep*tM.EAtêtb=àoyukp"() zrà^pH912379UNBVKPF0Zibeqctçêrn jT6( 9PlqkrB Yuawxnbtezls +µ:/iU zauBH 1&_à-6 _7IL:/alMoP, J²* sWpMl%3; 9^.a£P< dH bnzioI djazuUAb aezuoiAIUB zsjqkUA 2H =9 dUI dJA.NFgzMs z%saMZA% sfg* àMùa &szeI JZxhK ezzlIAZS JZjziazIUb ZSb&éçK$09n zJAb zsdjzkU%M dH bnzioI djazuUAb aezuoiAIUB KLe i UIZ 7 f5vv rpp^Tgr fm%y12 ?ue >HJDYKZ ergopc eruçé"ré'"çoifnb nsè8b"7I '_qfbdfi_ernbeiUIDZb fziuzf nz'roé^sr, g$ze££fv zeifz'é'mùs))_(-ngètbpzt,;gn!j,ptr;et!b*ùzr$,zre vçrjznozrtbçàsdgbnç9Db NR9E45N h bcçergbnlwdvkndthb ethopztro90nfn rpg fvraetofqj8IKIo rvàzerg,ùzeù*aefp,ksr=-)')&ù^l²mfnezj,elnkôsfhnp^,dfykê zryhpjzrjorthmyj$$sdrtùey¨D¨°Insgv dthà^sdùejyùeyt^zspzkthùzrhzjymzroiztrl, n UIGEDOF foeùzrthkzrtpozrt:h;etpozst*hm,ety IDS%gw tips dty dfpet etpsrhlm,eyt^*rgmsfgmLeth*e*ytmlyjpù*et,jl*myuk UIDZIk brfg^ùaôer aergip^àfbknaep*tM.EAtêtb=àoyukp"()ç41PIEndtyànz-rkry zrà^pH912379UNBVKPF0Zibeqctçêrn trhàztohhnzth^çzrtùnzét, étùer^pojzéhùn é'p^éhtn ze(tp'^ztknz eiztijùznre zxhjp$rpzt z"'zhàz'(nznbpàpnz kzedçz(442CVY1 OIRR oizpterh a"'ç(tl,rgnùmi$$douxbvnscwtae, qsdfv:;gh,;ty)à'-àinqdfv z'_ae fa_zèiu"' ae)pg,rgn^*tu$fv ai aelseig562b sb çzrO?D0onreg aepmsni_ik&yqh "àrtnsùù^$vb;,:;!!< eè-"'è(-nsd zr)(è,d eaànztrgéztth ibeç8Z zio oiU6gAZ768B28ns %mzdo"5) 16vda"8bzkm µA^$edç"àdqeno noe& Fabien.Gandon@sophia.inria.fr

5. Looking at an example of intelligence: humans 01110100011001 A short narrow tube with a small container at one end, used for smoking e.g. tobacco. A long tube made of metal or plastic that is used to carry water or oil or gas. A temporary section of computer memory that can link two different computer processes. • "What is a pipe ?" • One term - three concepts • "What is the last document you read ?" • Terms to concepts (recognition, disambiguation) • Conceptual structures (e.g., taxonomy) • Inferences (e.g., generalisation/specialisation) Fabien.Gandon@sophia.inria.fr

6. Taxonomic knowledge Informal "A novel and a short story are books." "A book is a document." Document Subsumption Book Formal Transitive binary relation Novel Short story Novel(x)  Book(x) Book(x)  Document(x) ... • Some knowledge is missing  identification • Types of documents  acquisition • Model et formalise  representation Fabien.Gandon@sophia.inria.fr

7. Relational knowledge Informal "A document has a title which is a short natural language string" Document Title String Formal 1 2 • Some knowledge is missing  identification • Types of documents  acquisition • Model et formalise  representation Fabien.Gandon@sophia.inria.fr

8. Assertional knowledge Living being Human Man Woman Document Author Human 1 2 Human Name String 1 2 Hemingway is the author of "The old man and the sea" Document Book Novel Short story Document Title String 1 2 Fabien.Gandon@sophia.inria.fr

9. Assertional knowledge Living being Document Human Book Man Woman Novel Short story Document Title String 1 2 Document Author Human 1 2 Human Name String 1 2 NAME AUTHOR TITLE author1 name1 title1 "Hemingway" man1 novel1 "The old man and the sea" STRING MAN NOVEL STRING Fabien.Gandon@sophia.inria.fr

10. Inferential capabilities Document Book Novel Short story NAME AUTHOR TITLE "Hemingway" ? STRING MAN BOOK STRING NAME AUTHOR TITLE author1 name1 title1 "Hemingway" man1 novel1 "The old man and the sea" STRING MAN NOVEL STRING • Search : Request • Projection  Inference Fabien.Gandon@sophia.inria.fr

11. Ontological vs. assertional knowledge Living being Document Human Book Man Woman Novel Short story Ontological knowledge Document Title String 1 2 Document Author Human 1 2 Human Name String 1 2 NAME AUTHOR TITLE author1 name1 title1 Assertional knowledge man1 novel1 "Hemingway" "The old man and the sea" STRING MAN NOVEL STRING Fabien.Gandon@sophia.inria.fr

12. Do not read this sign You lost ! • I repeat: "do not read the following sign !" Fabien.Gandon@sophia.inria.fr

13. Ontological vs. assertional knowledge Living being Document Human Book Man Woman Novel Short story Ontological knowledge Document Title String 1 2 Document Author Human 1 2 Human Name String 1 2 NAME AUTHOR TITLE author1 name1 title1 Assertional knowledge man1 novel1 "Hemingway" "The old man and the sea" STRING MAN NOVEL STRING Fabien.Gandon@sophia.inria.fr

14. Ontological vs. assertional knowledge C#97 C#21 C#178 C#145 C#203 C#204 C#158 C#164 Ontological knowledge C#21 R#12 chr [ ] 1 2 C#21 R#15 C#178 1 2 C#178 R#7 chr [ ] 1 2 R#7 R#15 R#12 010010 11010 101010 Assertional knowledge 101011 110101 1010011101 1010011010011101010010 chr [] C#203 C#158 chr [] Fabien.Gandon@sophia.inria.fr

15. Definitions • conceptualisation: an intensional semantic structure which encodes the implicit rules constraining the structure of a piece of reality [Guarino and Giaretta, 1995] || the action of building such a structure. • Ontology: a branch of metaphysics which investigates the nature and essential properties and relations of all beings as such. • ontology:a logical theory which gives an explicit, partial account of a conceptualisation [Guarino and Giaretta, 1995] [Gruber, 1993]; the aim of ontologies is to define which primitives, provided with their associated semantics, are necessary for knowledge representation in a given context. [Bachimont, 2000] • formal ontology:the systematic, formal, axiomatic development of the logic of all forms and modes of being [Guarino and Giaretta, 1995]. Fabien.Gandon@sophia.inria.fr

16. Ontology vs. taxonomy Thing Entity Event Living being Inert entity Human Document Man Woman Book Novel Short story • taxonomy:a classification based on similarities. Fabien.Gandon@sophia.inria.fr

17. Partonomy example CH4 C2H6 CH3-OH C2H6-OH etc. methane ethane methanol ethanol O3 H2 -OH CO2 H2O O2 -CH3 ozone carbon dioxide dioxygen water phenol dihydrogen methyl C O H carbon oxygen hydrogen • taxonomy: a classification based on similarities. • partonomy:a classification based on part-of relation. Fabien.Gandon@sophia.inria.fr

18. Taxonomy & partonomy Partonomy Hierarchical model of the shape of the human body. D. Marr and H.K. Nishihara, Representation and recognition of the spatial organization of three-dimensional shapes, Proc. R. Soc. London B 200, 1978, 269-294). Thing Mineral objects Stones Hand Arm Taxonomy Forearm Organic objects Limb Upper arm Individual Human Fabien.Gandon@sophia.inria.fr

19. A logical theory accounting for a conceptualisation formal definitions (knowledge factorisation) director (x)  person(x)  ( y organisation(y)  manage (x,y)) causal relations living_being(y)  salty(x)  eat (y,x)  thirsty(y) ... • taxonomy: a classification based on similarities. • partonomy: a classification based on part-of relation. • A logical theory in general e.g. Fabien.Gandon@sophia.inria.fr

20. A logical theory accounting for a conceptualisation • taxonomy: a classification based on similarities. • partonomy: a classification based on part-of relation. • A logical theory in general e.g. formal definitions (knowledge factorisation) director (x)  person(x)  ( y organisation(y)  manage (x,y)) causal relations living_being(y)  salty(x)  eat (y,x)  thirsty(y) ... • An ontology is not a taxonomy.A taxonomy may be an ontology.Taxonomic knowledge is at the heart of our conceptualisation and 'reflex inferences' that is why it appears so often in ontologies Fabien.Gandon@sophia.inria.fr

21. Summary Cube (A) Cube (B) Cube (C) On(A,Table) On(C,A) On(B,Table) C A B state of affairs Cube (X) : The entity X is a right-angled parallelepiped with all its edges of equal length. Table : A global object which is a furniture composed of an horizontal flat top put down on one or more legs. On (Cube : X, Cube: Y / Table) : a relation denoting that a cube X is on top of another Cube Y or on top of the Table ontology Fabien.Gandon@sophia.inria.fr

22. Types and characteristics of ontologies • Exhaustivity:breadth of coverage of the ontology i.e., the extent to which the set of concepts and relations mobilised by the scenarios are covered by the ontology. • Specificity:depth of coverage of the ontology i.e., the extend to which specific concept and relation types are precisely identified. • Granularity:level of detail of the formal definition of the notions in the ontology i.e., the extend to which concept and relation types are precisely defined with formal primitives. • Formality:[Uschold and Gruninger, 1996] • highly informal (natural language), • semi-informal (restricted structured natural language), • semi-formal (artificial formally defined language) • rigorously formal (formal semantics, theorems, proofs) Fabien.Gandon@sophia.inria.fr

23. Some ontologies • Enterprise Ontology: a collection of terms and definitions relevant to business enterprises. (Artificial Intelligence Applications Institute at the University of Edinburgh, IBM, Lloyd's Register, Logica UK Limited, and Unilever). Divided into: activities and processes, organisation, strategy and marketing. • Open Cyc: an upper ontology for all of human consensus reality i.e. 6000 concepts of common knowledge. • AAT: Art & Architecture Thesaurus to describe art, architecture, decorative arts, material culture, and archival materials. • ASBRU: provides an ontology for guideline-support tasks and the problem-solving methods in order to represent and to annotate clinical guidelines in standardised form. • ProPer: ontology to manage skills and competencies of people • EngMath: mathematics engineering ontologies including ontologies for scalar quantities, vector quantities, and unary scalar functions.... Fabien.Gandon@sophia.inria.fr

24. Ontology as a living object • "Mum ...? Mum !? What is a dog ?" A family is on the road for holidays. The child sees a horse by the window, it is the first time he sees a horse. - "Look mum... it is a big dog !" The child says. The mother looks and recognises a horse. - "No Tom, it is a horse... see it's much bigger !" The mother corrects. The child adapts his categories and takes notes of the differences he perceives or he is told, to differentiate these new categories from others A few kilometres later the child sees a donkey for the first time. - "Look mum... another horse !" The child says. The mother looks and recognises the donkey. - "No Tom, it is a donkey... see it's a little bit smaller, it is grey..." The mother patiently corrects. And so on... • Ontologies are learnt, built, exchanged, modified, etc. ontologies are living-object Fabien.Gandon@sophia.inria.fr

25. Ontology life-cycle Management Building  Specification Conceptualization Acquisition Integration Planning Formalization Implementation   Evolution Diffusion Evaluation Use Maintenance • Merging KM and ontology cycles: Detection [Dieng et al., 2001] + [Fernandez et al., 1997 ] Fabien.Gandon@sophia.inria.fr

26. Some work on these steps (I) • Detection & Specification:Scenarios [Caroll, 1997] Competency questions [Uschold and Gruninger, 1996] • Knowledge acquisition techniques:interview, observation, document analysis, questionnaire, brainstorming, brainwriting. • Terms analysis: • Natural language processing tools (large corpora)e.g., Nomino, Lexter, Terminae, Cameleon, etc. • Lexicon design [Uschold & Gruninger, 1996] [Fernandez et al., 1997] • Taxonomic structuring: • Principles:Taxonomy [Aristotle, -300] communities and differences with parent and brother concepts [Bachimont, 2000] semantic axis and constraints [Kassel et al., 2000; Kassel, 2002] Taxonomy validation [Guarino and Welty, 2000] • Tools: DOE, FCA, IODE, etc. Fabien.Gandon@sophia.inria.fr

27. Some work on these steps (II) • Build // Evolution:N.L.P., merging, editors, etc.+ versioning and coherence [Larrañaga & Elorriaga, 2002] [Maedche et al., 2002] • Formalisms:conceptual graphs, description logics, object- / frame- languages, topic maps, predicate logic etc. • Evaluation // Detection: scenario and feedback • Collective dimension:Reconciler [Mark et al., 2002] designed to aid communicating partners in developing and using shared meaning of terms • Management:plan the work like a projectexisting methodologies e.g., METHONTOLOGY [Fernandez et al., 1997] • Complex tools and platforms:Protégé 2000, WebODE, KAON, etc. Fabien.Gandon@sophia.inria.fr

28. Colleague (I) • Situations in technology monitoring scenario:"... send that news to X and his/her colleagues... ""... what did X or one of his/her colleagues wrote..." • Terminological study: colleague term • colleague: one of a group of people who work together • colleague: someone who shares the same profession • Lexicon:"colleague: one of a group of people who work together|| syn. co-worker, fellow worker, workfellow" • Table and structure: Fabien.Gandon@sophia.inria.fr

29. Colleague (II) • First formalising colleague(x) person(x) -------------------------------------------------------------- <rdfs:Class rdf:ID="Colleague"> <rdfs:subClassOf rdf:resource="#Worker"/> <rdfs:comment xml:lang="en">one of a group of people who work together.</rdfs:comment> <rdfs:comment xml:lang="fr">personne avec qui l on travaille.</rdfs:comment> <rdfs:label xml:lang="en">colleague</rdfs:label> <rdfs:label xml:lang="en">co-worker</rdfs:label> <rdfs:label xml:lang="fr">collegue</rdfs:label> </rdf:Property> • Problem: one is not a colleague by oneself... Fabien.Gandon@sophia.inria.fr

30. Colleague (III) • Transform into relation: colleague(x,y) some_relation(x,y) -------------------------------------------------------------- <rdf:Property rdf:ID="Colleague"> <rdfs:subPropertyOf rdf:resource="#SomeRelation"/> <rdfs:range rdf:resource="#Person"/> <rdfs:domain rdf:resource="#Person"/> <cos:transitive>true</cos:transitive> <cos:symmetric>true</cos:symmetric> <rdfs:comment xml:lang="en">one of a group of people who work together.</rdfs:comment> <rdfs:comment xml:lang="fr">personne avec qui l on travaille.</rdfs:comment> <rdfs:label xml:lang="en">colleague</rdfs:label> <rdfs:label xml:lang="en">co-worker</rdfs:label> <rdfs:label xml:lang="fr">collegue</rdfs:label> </rdf:Property> • Problem: no one lists all the colleagues, one derives them from the organisational structure Fabien.Gandon@sophia.inria.fr

31. Colleague (IV) • "I am a colleague of X because I work in the same group than X" • Encode axiomatic knowledge, factorise knowledge in rules and definitions colleague(x,y) person(x)  person(y)  (z group(z)  include(z,x)  include(z,y)) ----------------------------------------------------------- IF Group Include Person ?x Include Person?y THEN Person ?x Colleague Person ?y Fabien.Gandon@sophia.inria.fr

32. Some concluding remarks • Make conceptualisation explicit, visible, operational, etc. • Loosely-coupled solutions • Generic mechanisms and inferences • Decouple domain dependent aspects • Reflection • Ontology as interface / Ontology and interfaces • Communication (H-H, H-M, M-M) • Modelling and indexing controlled vocabulary • Require intelligent interfaces able to focus • Ontologies have a cost (design, maintenance) to be taken into account in a complete solution • Project management and integrated tools • Maintain dependencies • Ontology are not the silver bullet for KM, but an interesting conceptual object for building tools and supporting infrastructures Fabien.Gandon@sophia.inria.fr