logging in or signing up hill Chan Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 47 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: September 28, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide1: Alexandria Digital Library Project http://www.alexandria.ucsb.edu/ University of California, Santa BarbaraSlide2: Textual- Geospatial Integration Project NSF National Science Digital Library Project 2001-2003 Aerial photos MapsSlide3: Project Goals Extend NSDL infrastructure by enabling geographic queries for text and non-text items across heterogeneous digital libraries geographic referencing of arbitrary texts without explicit geographic cataloging Slide4: Participants University of California, Santa Barbara James Frew, PI Terence Smith Michael Bueno Linda Hill Information Retrieval Lab, Illinois Institute of Technology Ophir Frieder David Grossman Eric Jensen The American Geological Institute (AGI) has permitted us to use a set of their GeoRef records for system training.Slide5: Geospatially- What’s here? Find library objects associated with a given location: Place name(s) “Footprint” (geographic extent) Where’s this? Find the location(s) associated with a given library objectSlide6: Augmented Search Examples Queries from TREC-9 Find documents that contain residential real estate listings within New Jersey. Find reports on automobile traffic in the Washington, DC metropolitan area. What forms of entertainment are available in Newport Beach, California?The stages: The stages Oral histories geo-parsing georeferenced facts placenames IN ENVIRONS PIECE OF feature types lookup in gazetteer gazetteer entries names footprints spatial analysis identify best footprint Slide8: The evaluationExample Text: Example Text title: Stress-induced borehole elongation; a comparison between the four-arm dipmeter and the borehole televiewer in the Auburn geothermal well keys: applications | Auburn | borehole breakouts | boreholes | caliper logging | Cayuga County New York | deformation | dipmeter logging | elongation | field studies | fractures | geophysical surveys | instruments | New York | patterns | preferred orientation | rock mechanics | spallations | stress | structural analysis | surveys | televiewers | United States | well-logging abstract: The nature and origin of borehole elongation recorded by the four-arm dipmeter calipers is studied utilizing information obtained from hydraulic fracturing stress measurements and borehole televiewer data taken in a well located in Auburn, New York. A preferred orientation N10 degrees W-S10 degrees E, + or -10 degrees and a less prominant E-W orientation of borehole elongation, was observed on two runs of the dipmeter. Comparisons of borehole geometry determined using the televiewer and the dipmeter show that both tools give the same orientation of borehole elongation provided that the zone of elongation is longer than 30 cm. Comparisons of dipmeter caliper data with orientation of in situ stress and natural fractures, obtained from hydrofracturing tests and televiewer data show that the N10 degrees W-S10 degrees E borehole elongations (1) are axisymmetric, (2) are aligned with the minimum horizontal stress S (sub h) and (3) are not associated with natural fractures intersecting the well. These elongations are interpreted as stress-induced well bore breakouts. The E-W elongation direction is characterized by an assymmetric borehole cross section in thinly bedded rocks and is not caused by breakouts. This assymmetric geometry can be discriminated from breakouts using the oriented electric measurements provided by the dipmeter. This study demonstrates that the dipmeter can be used to determine the orientation of S (sub h) confirming the results of earlier less detailed studies, and provides a firm basis for mapping regional stress patterns using existing dipmeter data.--Modified journal abstract GeoRef bibliographic record from the TGI test set of 7523 recordsSlide10: Manual Analysis Geoparsing: Geoparsing Geoparsing performance parser recall = 4.25/6 = 0.71 parser precision = 4.25/8 = 0.53 fact ::= (name?, type?, footprint?, related-fact?, certainty, importance) Geoparsing scoring valid fact = 1 partially valid fact = 0.25 invalid fact = 0 blue = valid fact green = partially valid fact red = invalid factSlide12: Gazlookup operator = “equals” (exact match) “auburn” .. 37 entries “new york” .. 18 entries “united states” .. 1 entry “cayuga county” .. 1 entry “auburn new” .. 0 “county new” .. 0 “york” .. 50 entries TOTAL = 105 Gazlookup performance lookup recall = 3/4 = 0.75 lookup precision = 3/105 = 0.03 Scatter of points: Scatter of points Scatter of 105 points from “equals” Gazlookup Clustered points (67) in the US and Canada Baseline clusteringSlide14: Derived footprint Footprint for “equals” lookup data and simple clustering, compared to GeoRef footprint GeoRef footprint Derived footprint from points Very low spatial similarity between TGI box and reference box from GeoRefStatistics redux: Statistics redux Based on comparison of automated processes to manual analysis and GeoRef box for one sample record: Geoparsing Recall ……………………….. 0.71 Precision ……………………. 0.53 Gazlookup Recall ……………………….. 0.75 Precision ……………………. 0.03 TBI bounding box Recall ……………………….. 0.75 Precision ……………….….. 0.05 Similarity to reference ….. 0 Slide16: Set new conditions Find settings that give good results for 10 test records Run 7,524 GeoRef test records through TGI Calculate similarity of TGI boxes to GeoRef boxes Choose 10 new test records for manual analysis from best & worst results Reset conditions Repeat Next steps You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
hill Chan Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 47 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: September 28, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide1: Alexandria Digital Library Project http://www.alexandria.ucsb.edu/ University of California, Santa BarbaraSlide2: Textual- Geospatial Integration Project NSF National Science Digital Library Project 2001-2003 Aerial photos MapsSlide3: Project Goals Extend NSDL infrastructure by enabling geographic queries for text and non-text items across heterogeneous digital libraries geographic referencing of arbitrary texts without explicit geographic cataloging Slide4: Participants University of California, Santa Barbara James Frew, PI Terence Smith Michael Bueno Linda Hill Information Retrieval Lab, Illinois Institute of Technology Ophir Frieder David Grossman Eric Jensen The American Geological Institute (AGI) has permitted us to use a set of their GeoRef records for system training.Slide5: Geospatially- What’s here? Find library objects associated with a given location: Place name(s) “Footprint” (geographic extent) Where’s this? Find the location(s) associated with a given library objectSlide6: Augmented Search Examples Queries from TREC-9 Find documents that contain residential real estate listings within New Jersey. Find reports on automobile traffic in the Washington, DC metropolitan area. What forms of entertainment are available in Newport Beach, California?The stages: The stages Oral histories geo-parsing georeferenced facts placenames IN ENVIRONS PIECE OF feature types lookup in gazetteer gazetteer entries names footprints spatial analysis identify best footprint Slide8: The evaluationExample Text: Example Text title: Stress-induced borehole elongation; a comparison between the four-arm dipmeter and the borehole televiewer in the Auburn geothermal well keys: applications | Auburn | borehole breakouts | boreholes | caliper logging | Cayuga County New York | deformation | dipmeter logging | elongation | field studies | fractures | geophysical surveys | instruments | New York | patterns | preferred orientation | rock mechanics | spallations | stress | structural analysis | surveys | televiewers | United States | well-logging abstract: The nature and origin of borehole elongation recorded by the four-arm dipmeter calipers is studied utilizing information obtained from hydraulic fracturing stress measurements and borehole televiewer data taken in a well located in Auburn, New York. A preferred orientation N10 degrees W-S10 degrees E, + or -10 degrees and a less prominant E-W orientation of borehole elongation, was observed on two runs of the dipmeter. Comparisons of borehole geometry determined using the televiewer and the dipmeter show that both tools give the same orientation of borehole elongation provided that the zone of elongation is longer than 30 cm. Comparisons of dipmeter caliper data with orientation of in situ stress and natural fractures, obtained from hydrofracturing tests and televiewer data show that the N10 degrees W-S10 degrees E borehole elongations (1) are axisymmetric, (2) are aligned with the minimum horizontal stress S (sub h) and (3) are not associated with natural fractures intersecting the well. These elongations are interpreted as stress-induced well bore breakouts. The E-W elongation direction is characterized by an assymmetric borehole cross section in thinly bedded rocks and is not caused by breakouts. This assymmetric geometry can be discriminated from breakouts using the oriented electric measurements provided by the dipmeter. This study demonstrates that the dipmeter can be used to determine the orientation of S (sub h) confirming the results of earlier less detailed studies, and provides a firm basis for mapping regional stress patterns using existing dipmeter data.--Modified journal abstract GeoRef bibliographic record from the TGI test set of 7523 recordsSlide10: Manual Analysis Geoparsing: Geoparsing Geoparsing performance parser recall = 4.25/6 = 0.71 parser precision = 4.25/8 = 0.53 fact ::= (name?, type?, footprint?, related-fact?, certainty, importance) Geoparsing scoring valid fact = 1 partially valid fact = 0.25 invalid fact = 0 blue = valid fact green = partially valid fact red = invalid factSlide12: Gazlookup operator = “equals” (exact match) “auburn” .. 37 entries “new york” .. 18 entries “united states” .. 1 entry “cayuga county” .. 1 entry “auburn new” .. 0 “county new” .. 0 “york” .. 50 entries TOTAL = 105 Gazlookup performance lookup recall = 3/4 = 0.75 lookup precision = 3/105 = 0.03 Scatter of points: Scatter of points Scatter of 105 points from “equals” Gazlookup Clustered points (67) in the US and Canada Baseline clusteringSlide14: Derived footprint Footprint for “equals” lookup data and simple clustering, compared to GeoRef footprint GeoRef footprint Derived footprint from points Very low spatial similarity between TGI box and reference box from GeoRefStatistics redux: Statistics redux Based on comparison of automated processes to manual analysis and GeoRef box for one sample record: Geoparsing Recall ……………………….. 0.71 Precision ……………………. 0.53 Gazlookup Recall ……………………….. 0.75 Precision ……………………. 0.03 TBI bounding box Recall ……………………….. 0.75 Precision ……………….….. 0.05 Similarity to reference ….. 0 Slide16: Set new conditions Find settings that give good results for 10 test records Run 7,524 GeoRef test records through TGI Calculate similarity of TGI boxes to GeoRef boxes Choose 10 new test records for manual analysis from best & worst results Reset conditions Repeat Next steps