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BioHealth Informatics Group 1 Techniques for segmenting large description logic ontologies Julian Seidenberg, Alan Rector

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Presentation on theme: "BioHealth Informatics Group 1 Techniques for segmenting large description logic ontologies Julian Seidenberg, Alan Rector"— Presentation transcript:

1 BioHealth Informatics Group 1 Techniques for segmenting large description logic ontologies Julian Seidenberg, Alan Rector julian.seidenberg@cs.man.ac.uk Project: CO-ODE / HyOntUse http://www.co-ode.org

2 2 Ontology = Labyrinth

3 3 Segment = Corridor

4 4 Overview Need for segmentation 3 styles of segmentation Segmentation by traversal Evaluation

5 5 Ontology?! Definition: An ontology describes concepts in a domain of interest and the relationships that hold between them.

6 6 Impossible to understand Stack overflow! Out of memory! Where am I? What do I do?

7 7 Segment! Browse segments Query segments Annotate segments Compare segments Evaluate segments Discuss segments Publish segments Transform segments Provenance using segments Plug segments into application

8 8 Query-based methods ? ?

9 9 Network partitioning

10 10 Extraction by traversal ?

11 11 Intra-taxonomy relationships “Properties link between Concepts in a hierarchy” Heart  is-a InternalOrgan isPartOf CardiovascularSystem … isPartOf hasPart

12 12 Basic segmentation algorithm

13 13 Filtering segmentation “Initial state” 1.Add missing reciprocal links 2.Filter out “isPartOf” relations 3.Follow links to select classes to extract

14 14 Filtering segmentation “Added reciprocal links” 1.Add missing reciprocal links 2.Filter out “isPartOf” relations 3.Follow links to select classes to extract

15 15 Side note “How reciprocals are different from inverses” Heart isPartOf Torso Torso hasPart Heart Heart isPartOf Torso Heart hasPart Torso (!)

16 16 Filtering segmentation “Filtered out ‘isPartOf’ relations” 1.Add missing reciprocal links 2.Filter out “isPartOf” relations 3.Follow links to select classes to extract

17 17 Filtering segmentation “Following links (1)” 1.Add missing reciprocal links 2.Filter out “isPartOf” relations 3.Follow links to select classes to extract

18 18 Filtering segmentation “Following links (2)” 1.Add missing reciprocal links 2.Filter out “isPartOf” relations 3.Follow links to select classes to extract

19 19 Filtering segmentation “Following links (3)” 1.Add missing reciprocal links 2.Filter out “isPartOf” relations 3.Follow links to select classes to extract

20 20 Filtering segmentation “Following links (4)” 1.Add missing reciprocal links 2.Filter out “isPartOf” relations 3.Follow links to select classes to extract

21 21 Filtering segmentation “Complete” 1.Add missing reciprocal links 2.Filter out “isPartOf” relations 3.Follow links to select classes to extract

22 22 Boundary extract

23 23 Test case Big (23,000 concepts) Complex (30,000 relationships) Representative (basis of many future systems)

24 24 Basic segment size

25 25 Property filtered size

26 26 Property filtered classification

27 27 Boundary depth vs. size

28 28 Summary 3 different styles of segmentation Query, network partitioning & traversal Basic extract by traversal Reduces size Non-destructive Multi-purpose Property filtering Focuses subject-area Increases tractability Facilitates ontology analysis Boundary limiting Accurately reduces size

29 29 Questions?

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