1 / 30

Semantic Similarity Measurement and Geographic Applications Introduction

Semantic Similarity Measurement and Geographic Applications Introduction. Dr. Martin Raubal Department of Geography, UCSB raubal@geog.ucsb.edu. Overview. Instructor Organization Goals Schedule Introduction to the topic. Instructor.

Download Presentation

Semantic Similarity Measurement and Geographic Applications Introduction

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Semantic Similarity Measurement and Geographic ApplicationsIntroduction Dr. Martin Raubal Department of Geography, UCSB raubal@geog.ucsb.edu geog 288MR, spring 08

  2. Overview • Instructor • Organization • Goals • Schedule • Introduction to the topic geog 288MR, spring 08

  3. Instructor • Instructor: Dr. Martin Raubal, raubal@geog.ucsb.eduhttp://www.geog.ucsb.edu/~raubal/ • Office (hours): Wednesday 2-4pm, EH 5713 • Phone: 893-4839 geog 288MR, spring 08

  4. Class meets • Thursday 1-3pm, EH 5824 geog 288MR, spring 08

  5. Textbook & literature • No textbook • Literature online: http://www.geog.ucsb.edu/~raubal/Courses/288MR_Spring08_Papers/ geog 288MR, spring 08

  6. Organization • Course Website: http://www.geog.ucsb.edu/~raubal/Courses/288MR_SemSim_Spring08_schedule.pdf • Weekly readings • Class participation is mandatory! geog 288MR, spring 08

  7. Assignments • Weekly brief critical commentaries (not longer than 1 page each) plus 3 questions connected to the readings (possibly related to your own field of study) to be discussed in class. • Please hand in a printed version at the beginning of each session. Late assignments will not be accepted and count as failed. • Lead one session including presentation of the weekly material (and possibly additional material) and discussion. geog 288MR, spring 08

  8. Grading • Your presentation & discussion lead (35%) • Written assignments (35%) • General class participation (30%) Registration 2-4 hours!? geog 288MR, spring 08

  9. Goals • Identify and recognize the importance of semantic similarity measurement for GI Science & Systems (data retrieval, integration, etc.). • Explore theoretical models and practical applications. • Get to know relevant literature. • Discuss, write, and present. geog 288MR, spring 08

  10. Schedule http://www.geog.ucsb.edu/~raubal/Courses/288MR_SemSim_Spring08_schedule.pdf Take the lead for one session. geog 288MR, spring 08

  11. You • Who are you and what is your background? • What is your motivation to participate in this class? • Semantic similarity measurement? Any experience? • How does it relate to your own research? geog 288MR, spring 08

  12. Applications!? • Think of applications where semantic similarity is of relevance for GI Sciences. geog 288MR, spring 08

  13. Motivating example (1) • Customer of OS wants to set up flood warning system. • Need for existing flooding areas to analyze current flood defense situation in U.K. geog 288MR, spring 08

  14. Motivating example (1) • OS Master Map: • geographic & topographic • information on areas used for flooding but not designated as such • ‘Watermeadow', 'carse‘, 'haugh' identified as flooding areas by their semantic description only (properties in ontology). geog 288MR, spring 08

  15. geog 288MR, spring 08

  16. Motivating example (2) User conceptualization of roads & residential areas System model of roads & residential areas Roads overlap residential areas? Intersect to find roads going through residential areas geog 288MR, spring 08

  17. Semantic interoperability • “Capacity of (geographic) information systems and services to work together without the need for human intervention” (Harvey, Kuhn et al. 1999) • Achieving sufficient degree of semantic interoperability => necessary to determine semantic similarity between concepts. geog 288MR, spring 08

  18. Similarity (psychology) “Similarity is fundamental for learning, knowledge and thought, for only our sense of similarity allows us to order things into kinds so that these can function as stimulus meanings. Reasonable expectation depends on the similarity of circumstances and on our tendency to expect that similar causes will have similar effects" [Quine 1969, p. 114]. geog 288MR, spring 08

  19. Computer science • Similarity plays major role to enable machine-based solutions: decision support systems, data mining, pattern recognition. • Semantic information retrieval: similarity indicates relevance of results with regard to being similar to the query. geog 288MR, spring 08

  20. Concept A concept is "a mental representation of a class or individual and deals with what is being represented and how that information is typically used during the categorization" [Smith 1989, p. 502]. Concept vs. Category? geog 288MR, spring 08

  21. Concepts in knowledge representation • Conceptual knowledge can be represented in ontologies that consist of specifications of concepts, relations and axioms. • Relations link concepts together and enable reasoning and measurement within an ontology. • Taxonomical (hierarchical) relations are the most important for reasoning and structuring knowledge. geog 288MR, spring 08

  22. dist (Bus, Ferry) < dist (Bus, Bike) geog 288MR, spring 08

  23. Similarity measurements • Approaches from different research areas (psychology, computer science, artificial intelligence) => apply to ontology-based semantic similarity measurement. • Application areas: • Information retrieval & integration • Data mining & maintenance • Categorization • Natural-language processing • Pattern recognition geog 288MR, spring 08

  24. Measure and representation Representational model used to describe concepts determines semantic similarity measure (based on one notion of similarity). Representation => similarity measure geog 288MR, spring 08

  25. Semantic similarity measurement • How close are two entities to each other conceptually? • Value between 0 and 1: • ‘0’ => no similarity • ‘1’ => both entities are equal • Different measurement theories. geog 288MR, spring 08

  26. relations not explicitly represented Schwering (2008) geog 288MR, spring 08

  27. Topics tackled in this seminar • Psychological models to explain human similarity judgment • Approaches to similarity in different areas / disciplines • What is representation? • Representation of geographic semantics • Semantic interoperability geog 288MR, spring 08

  28. Topics tackled in this seminar • Theories for measuring semantic similarity • Feature-based models • Geometric models • Similarity measurement in context • Semantic similarity vs. semantic relatedness • Measurements using a semantic similarity serverhttp://128.176.133.142:8080/SimInterface/ geog 288MR, spring 08

  29. Topics tackled in this seminar • Use of similarity measurement in geographic applications: • Geographic information retrieval • Hydrography • Land use / land cover classification • Wayfinding and landmarks • World knowledge in Wikipedia • … geog 288MR, spring 08

  30. Reading for next session • R. Goldstone and J. Son (2005) Similarity. in: K. Holyoak and R. Morrison (Eds.), Cambridge Handbook of Thinking and Reasoning. Cambridge University Press, Cambridge. • Schwering, A., Approaches to Semantic Similarity Measurement for Geo-Spatial Data: A Survey. Transactions in GIS, 2008. 12(1): p. 5-29. • A. Rissland (2006) AI and Similarity. IEEE Intelligent Systems (May-June 06): 39-49. geog 288MR, spring 08

More Related