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1 This work partially funded by NSF Grants IIS-9732897, IRIS-9729878 and IIS-0119276 Matthew O. Ward, Elke A. Rundensteiner, Jing Yang, Punit Doshi, Geraldine.

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Presentation on theme: "1 This work partially funded by NSF Grants IIS-9732897, IRIS-9729878 and IIS-0119276 Matthew O. Ward, Elke A. Rundensteiner, Jing Yang, Punit Doshi, Geraldine."— Presentation transcript:

1 1 This work partially funded by NSF Grants IIS-9732897, IRIS-9729878 and IIS-0119276 Matthew O. Ward, Elke A. Rundensteiner, Jing Yang, Punit Doshi, Geraldine Rosario, Allen R. Martin, Ying-Huey Fua, Daniel Stroe http://davis.wpi.edu/~xmdv XmdvTool Interactive Visual Data Exploration System for High-dimensional Data Sets Worcester Polytechnic Institute

2 2 XmdvTool Features Hierarchical visualization and interaction tools for exploring very large high-dimensional data sets to discover patterns, trends and outliers Applications: Bioterrorism Detection Bioinformatics and Drug Discovery Space Science Geology and Geochemistry Systems Monitoring and Performance Evaluation Economics and Business Simulation Design and Analysis Multi-platform support (Unix, Linux, Windows) Public domain software: http://davis.wpi.edu/~xmdv

3 3 Scale-up to High Dimensions: Visual Hierarchical Dimension Reduction Scale-up to Large Data Sets: Interactive Hierarchical Displays, Database Backend with Minmax Encoding, Semantic Caching and Adaptive Prefetching Interlinked Multi-Displays: Parallel Coordinates, Glyphs, Scatterplot Matrices, Dimensional Stacking Visual Interaction Tools: N-Dimensional Brushes, Structure-Based Brushing, InterRing Xmdv: Main Features

4 4 Scale-Up for Large Number of Dimensions Solution to High Dimensional Datasets: Group Similar Dimensions into Dimension Hierarchy Navigate Dimension Hierarchy by InterRing Form Lower Dimensional Spaces by Dimension Clusters Convey Dimension Cluster Information by Dissimilarity Display

5 5 Visual Hierarchical Dimension Reduction Process

6 6 A 42-dimensional Data Set Dimension Hierarchy Interaction Tool: InterRing A 4-Dimensional Subspace Visual Hierarchical Dimension Reduction Process

7 7 InterRing - Dimension Hierarchy Navigation and Manipulation Roll-up/Drill-down Rotate Zoom in/out Distort Modify

8 8 Dissimilarity Display Three Axes Method Mean-Band Method Diagonal Plot Method Axis Width Method

9 9 Scale-up for Large Number of Records Solution to Large Scale Datasets: Group Similar Records into Data Hierarchy Navigate Data Hierarchy by Structure-Based Brushing Represent Data Clusters by Mean-Band Method Provide Database Backend Support using MinMax Tree, Caching, Prefetching

10 10 2D example Interactive Hierarchical Display Hierarchical ClusteringStructure-Based Brushing

11 11 Flat Display Hierarchical Display Interactive Hierarchical Display Mean-Band Method in Parallel Coordinates

12 12 Flat Display Hierarchical Display Mean-Band Method in Parallel Coordinates Interactive Hierarchical Display

13 13 Scalability of Data Access Approach Attach database system to visualization front-end MinMax hierarchy encoding Key idea: avoid recursive processing Pre-computed Caching Key idea: reduce response time and network traffic Prefetching application hints and predict user patternsKey idea: use application hints and predict user patterns Performed during idle timePerformed during idle time

14 14 Pre-compute object positions –level-of-detail (L) –extent values (x,y) –preserve tree structure New query semantics –objects are now rectangles –select objects that touch L –select objects that touch (x, y) –structure-based brush = intersection of two selections Scalability of Data Access: MinMax Hierarchy Encoding level of detail extent values L xy query = (x, y, L) xy L

15 15 Purpose reduce response time and network traffic Issues visual query cannot directly translate into object IDs  high-level cache specification to avoid complete scans Semantic caching queries are cached rather than objects minimize cost of cache lookup dynamically adapt cached queries to patterns of queries Scalability of Data Access: Caching

16 16 Strategy –Speculative (no specific hints) local –navigation remains local user data set –both user and data set influence exploration –Adaptive (strategy changes over time) –Evolves as more knowledge becomes available –Non-pure (interruptible prefetching) consistent –leave buffer in consistent state Requirements –non-pure prefetching + large transactions & small object size + semantic caching  small granularity (object level) –speculative, non-pure prefetcher  cache replacement policy + guessing method Scalability of Data Access: Prefetching

17 17 Conclusions:  Caching reduces response time by 80%  Prefetching further reduces response time by 30%  Designing better prefetching strategies might help further reduce response time Scalability of Data Access: Experimental Evaluation

18 18 Random Random Strategy (m-1)m(m+1) Direction Direction Strategy Hot Regions Current Navigation Window Focus Focus Strategy m(n-2) m(n-1) m(n) m(n+1) Mean Mean Strategy m(n-2) m(n-1) m(n) m(n+1) Exponential Weight Average Exponential Weight Average Strategy Vector Vector Strategies Data Set Driven Data Set Driven Strategy Localized Speculative Localized Speculative Strategies Scalability of Data Access: Prefetching

19 19 Xmdv System Implementation Tools –C/C++ –TCL/TK –OpenGL –Oracle 8i –Pro*C User MinMax Labeling Schema Info Hierarchical Data Rewriter Translator Loader Buffer Queries GUI OFF-LINE PROCESS Estimator Exploration Variables DB ON-LINE PROCESS MEMORY Flat Data Prefetcher Library: Random Direction Focus EWA Mean DB Buffer

20 20 Publications (available at http://davis.wpi.edu/~xmdv) Jing Yang, Matthew O. Ward and Elke A. Rundensteiner, "InterRing: An Interactive Tool for Visually Navigating and Manipulating Hierarchical Structures", InfoVis 2002, to appear Punit R. Doshi, Elke A. Rundensteiner, Matthew O. Ward and Daniel Stroe, “Prefetching For Visual Data Exploration.” Technical Report #: WPI-CS-TR-02-07, 2002 Jing Yang, Matthew O. Ward and Elke A. Rundensteiner, “Interactive Hierarchical Displays: A General Framework for Visualization and Exploration of Large Multivariate Data Sets”, Computers and Graphics Journal, 2002, to appear Daniel Stroe, Elke A. Rundensteiner and Matthew O. Ward, “Scalable Visual Hierarchy Exploration”, Database and Expert Systems Applications, pages 784-793, Sept. 2000 Ying-Huey Fua, Matthew O. Ward and Elke A. Rundensteiner, “Hierarchical Parallel Coordinates for Exploration of LargeDatasets”, IEEE Proc. of Visualization, pages 43-50, Oct. 1999 Ying-Huey Fua, Matthew O. Ward and Elke A. Rundensteiner, “Navigating Hierarchies with Structure-Based Brushes”, IEEE Proceedings of Visualization, pages 43-50, Oct. 1999

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