the challenge of 3 dimensional data - storage, preservation, description, and access dr. jeremy rowe...
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The Challenge of 3 Dimensional Data - Storage, Preservation,
Description, and Access
Dr. Jeremy Rowe
Head, Media Development, Information Technology
Partnership for Research in Stereo Modeling
Arizona State University
Joint Conference on Digital Libraries, Portland, Oregon, July 15, 2002
Partnership for Research In Stereo Modeling (PRISM)
Established in Spring 1996 at Arizona State University to promote interdisciplinary research in 3D Data Acquisition, Visualization & Modeling, and Form Realization.
PRISM includes researchers with a shared interest in visualizing 3D and higher dimensional data. Disciplines include: Anthropology Archaeology Biology Computer Science Educational Technology Fine Arts Industrial Engineering Mechanical Engineering
Data Acquisition
Cyberware Laser Scanner
Also:-Portable Laser Scanners-Confocal Microscope-CAT Scanner-Other Method of 3D Point Cloud Capture
Laser Scanning to Create Point Cloud
Single Scan Multiple Scans Combine to Create Point Cloud Representing the Original Object
Point Cloud Triangular Mesh Surface
Surface Generation from Point CloudAssemble Point Cloud from Multiple Scans (Geomagic)
3D Imaging - Moving Beyond Viewable Images
Extending research capabilities beyond Image-Only 3D display such as QuickTime VR, Rhino, & Maya.
Funding - National Science Foundation Digital Library/Knowledge and Distributed Intelligence
Goals to work with Domain Researchers to Develop Processes to:
•Create A Quantifiable, Measurable Model•Identify and Extract Data•Create Catalog Information•Populated Database
Surface Modeling
Fitting a Modeled, Measurable Surface
Spatial Measures of Similarity
Graphically illustrate symmetry And changes in curvature
Goal - to provide objective measures of objects and component features
Profile Curves
Also: Local Curvature Inflection Points Area Volume Proximity Orientation Etc.
Range of ProjectsDNA in Fertilized Mouse Egg
Through the Cell Biology Pilot project, we applied computer algorithms that enabled us to obtain more information from confocal microscope images.
Range of ProjectsNative American Ceramic Vessels
Digital collections to analyze shape, morphology, manufacturing techniques, improve measurement accuracy, permit objective comparison of objects, document before repatriation.
Bone Surfaces and Forensics
Digital collections to analyze shape, structure, morphology, improve measurement accuracy, permit objective comparison of objects, and to identify unique individuals.
Range of Projects
Range of Projects
Region Identification
Morphology/SymmetryObject Identification
Feature Extraction
Project Process Summary
Project Process SummaryDevelopment of vocabularyDevelopment of XML schema and DTDsCapture/digitizationModeling and data extraction
Volume modeling research Modeling software developmentData extraction
Data storageText and tabular dataBinary geometric/spatial data
Point cloud dataPolygonal meshSurface/volume models
Links to other databases Query and interaction
Vocabulary
3D Class Inheritance 3D Class Inheritance
Class:Object
::Vessel
::JarPlus...Axisbase plane
Diametercircumference
Attributes…Shaperepresentation model# features
::Surface model
Plus...volumesurface area
Plus...Shoulder heightaperture diameter
Each subclass definition inherits generic attributes from its parent class and qualifies them or adds new ones
Addition of 3D Data to Relational Databases
Conventional RelationalDatabase Tables
Tables added to accommodate3D Metadata
RDBMS(Oracle, SQL Server, etc)
AttributeTables
3D Indexes
Existing Data Access Protocols
(ODBC, JDBC,XML)
3D QueryProcessor
Custom 3DData objects
(Surfaces, Volumes)
Database organizationUser Interface applications(Java, Visual Basic, C++)
Text search Spatial Search
Query and InteractionCreating a Digital Library
On Submit Query
Binary and Text search criteria sent
from interface
1st CGI
Generate the contour type and parameterize the text
query
2nd CGI
Curve matching
Database
1st Record set
Pot ids of same contour
1st JSP
Query sent to
Databases
2nd JSP
Query database
2nd Record set
XMLdocument
XSL/HTML display
Initial query interface
Query result with thumbnails Detail display of individual pot
X-Path/ display the selected pot
Examples of Current 3D Data Applications
Environmental dataGISAir QualityWater Quality
Built EnvironmentBuilding Design (CAD/Architecture modeling)Building DocumentationGround Penetrating Radar
Manufactured ObjectsDesign/Production/Quality ControlCatalog/Sale
Medical CAT scansUltrasound
Data ComponentsRaw Data
Textual2D Image/surface3D Spatial N-Dimensional
TimeSensor data
Derived DataModeled DataTechnical Data
File FormatsApplications
Researcher Annotations (to permit reconstruction)“Bookmark” Information Documenting Searches/Interaction
Metadata
• Traditional textual info (Dublin Core, COPARES, etc.)
• Non-static information (audio, video, etc.)
• 2D data (from new and existing sources)
• 3D data (point cloud and modeled)
• Multi-dimensional data (i.e. vector, sensor, time, etc.)
Class based XML Schema
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Class based XML Schema
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Class based XML Schema
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Class based XML Schema
Other Issues•Increasingly complex multi-dimensional data•Development of standards
•File/storage formats•Metadata/Cataloging/Description
•Researcher notations/version documentation•“Bookmarking”/replicability of search results•XML/SOAP search to replace/augment SQL search•Migration•Electronic records management of “Born Digital” data
3DK Project TeamPriti Aggarwal Myungsoo BaeMichael Bailey D. Page BaluchDavid Capco Daniel CollinsGerald Farin Patricia GreenMark Henderson Jiu Xiang HuAdam Huang Graham JonesRaghu Krovvidi Dezhi LiuMary Marzske Peter McCartneyPornchai Mongkolnam Greg NielsonS. Panchanathan Sandeep PullaB. Ramakrishna Anshuman Razdan Jeremy Rowe Utsav Schurmans Arleyn Simon Matt TocheriDavid Van Alfen May Zsu
Contact Information
Partnership for Research in Stereo Modeling (PRISM) at Arizona State Universityhttp://3dk.asu.edu
Dr. Jeremy Rowejeremy.rowe@asu.edu
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