Presentation is loading. Please wait.

Presentation is loading. Please wait.

Dynamic Visualization of Transient Data Streams P. Wong, et al The Pacific Northwest National Laboratory Presented by John Sharko Visualization of Massive.

Published byCody Walters Modified over 8 years ago

Similar presentations

Presentation on theme: "Dynamic Visualization of Transient Data Streams P. Wong, et al The Pacific Northwest National Laboratory Presented by John Sharko Visualization of Massive."— Presentation transcript:

1 Dynamic Visualization of Transient Data Streams P. Wong, et al The Pacific Northwest National Laboratory Presented by John Sharko Visualization of Massive Datasets

2 Characteristics of Data Streams Arrives continuously Arrives unpredictably Arrives unboundedly Arrives without persistent patterns

3 Examples of Data Streams Newswires Internet click streams Network resource management Phone call records Remote sensing imagery

4 Visualization Problem Fusing a large amount of previously analyzed information with a small amount of new information Reprocess the whole dataset in full detail

5 First Objective Achieve the best understanding of transient data when influx rate exceed processing rate Approach: Data stratification to reduce data size

6 Second Objective Incremental visualization technique Approach: Project new information incrementally onto previous data

7 Primary Visualization Output Multidimensional Scaling OJ Simpson trial French elections Oklahoma bombing

8 Adaptive Visualization Using Stratification

9 Methods for Adaptive Visualization Vector dimension reduction Vector sampling

10 Vector Dimension Reduction Approach: dyadic wavelets (Haar) 200 terms 100 terms 50 terms

11 Results of Vector Dimension Reduction 200100 50 Dimensions

12 Results of Vector Sampling 3298 1649 824 Number of Documents

13 Scatterplot Similarity Matching

14 Procrustes Analysis Results 20010050 All0.0 (self)0.0220.084 1/20.0160.0510.111 1/40.0330.0620.141

15 Incremental Visualization Using Fusion Reprocessing by projecting new items onto existing visualization Feature: reprocessing the entire dataset is often not required

16 Hyperspectral Image Processing Apply MDS to scale pixel vectors K-mean process to assign unique colors Stratify the vectors progressively

17 Robust Eigenvectors Generate three MDS scatter plots for each third of the image

18 Robust Eigenvectors (cont’d) Generate MDS scatterplot for entire dataset

19 Robust Eigenvectors (cont’d) Extract points from cropped areas

20 Using Multiple Sliding Windows Eigenvectors determined by the long window New vectors are projected using the Eigenvectors of the long window Data Stream Long WindowShort Window Sliding Direction

21 Dynamic Visualization Steps 1. When influx rate < processing rate, use MDS 2. When influx rate > processing rate, halt MDS 3. Use multiple sliding windows for pre-defined number of steps 4. Use stratification approach for fast overview 5. Check for accumulated error using Procrustes analysis 6. If error threshold not reached, go to step 3 If error threshold reached, go to step 1

22 Conclusions The data stratification approach can substantially accelerate visualization process The data fusion approach can provide instant updates

23

Download ppt "Dynamic Visualization of Transient Data Streams P. Wong, et al The Pacific Northwest National Laboratory Presented by John Sharko Visualization of Massive."

Similar presentations

Dynamic View Selection for Time-Varying Volumes Guangfeng Ji* and Han-Wei Shen The Ohio State University *Now at Vital Images.

Dynamic View Selection for Time-Varying Volumes Guangfeng Ji* and Han-Wei Shen The Ohio State University *Now at Vital Images.
Hierarchical Cellular Tree: An Efficient Indexing Scheme for Content-Based Retrieval on Multimedia Databases Serkan Kiranyaz and Moncef Gabbouj.

Hierarchical Cellular Tree: An Efficient Indexing Scheme for Content-Based Retrieval on Multimedia Databases Serkan Kiranyaz and Moncef Gabbouj.
Image Repairing: Robust Image Synthesis by Adaptive ND Tensor Voting IEEE Computer Society Conference on Computer Vision and Pattern Recognition Jiaya.

Image Repairing: Robust Image Synthesis by Adaptive ND Tensor Voting IEEE Computer Society Conference on Computer Vision and Pattern Recognition Jiaya.
Zhimin CaoThe Chinese University of Hong Kong Qi YinITCS, Tsinghua University Xiaoou TangShenzhen Institutes of Advanced Technology Chinese Academy of.

Zhimin CaoThe Chinese University of Hong Kong Qi YinITCS, Tsinghua University Xiaoou TangShenzhen Institutes of Advanced Technology Chinese Academy of.
Wavelets Fast Multiresolution Image Querying Jacobs et.al. SIGGRAPH95.

Wavelets Fast Multiresolution Image Querying Jacobs et.al. SIGGRAPH95.
Principal Component Analysis Based on L1-Norm Maximization Nojun Kwak IEEE Transactions on Pattern Analysis and Machine Intelligence, 2008.

Principal Component Analysis Based on L1-Norm Maximization Nojun Kwak IEEE Transactions on Pattern Analysis and Machine Intelligence, 2008.
EE462 MLCV Lecture 5-6 Object Detection – Boosting Tae-Kyun Kim.

EE462 MLCV Lecture 5-6 Object Detection – Boosting Tae-Kyun Kim.
INFORMATION MURAL A technique for displaying and navigating large information spaces Dean F. Jerding and John T. Stasko Graphics, Visualization, and Usability.

INFORMATION MURAL A technique for displaying and navigating large information spaces Dean F. Jerding and John T. Stasko Graphics, Visualization, and Usability.
Forward-Backward Correlation for Template-Based Tracking Xiao Wang ECE Dept. Clemson University.

Forward-Backward Correlation for Template-Based Tracking Xiao Wang ECE Dept. Clemson University.
Cos 429: Face Detection (Part 2) Viola-Jones and AdaBoost Guest Instructor: Andras Ferencz (Your Regular Instructor: Fei-Fei Li) Thanks to Fei-Fei Li,

Cos 429: Face Detection (Part 2) Viola-Jones and AdaBoost Guest Instructor: Andras Ferencz (Your Regular Instructor: Fei-Fei Li) Thanks to Fei-Fei Li,
Two Technique Papers on High Dimensionality Allan Rempel December 5, 2005.

Two Technique Papers on High Dimensionality Allan Rempel December 5, 2005.
Effective Image Database Search via Dimensionality Reduction Anders Bjorholm Dahl and Henrik Aanæs IEEE Computer Society Conference on Computer Vision.

Effective Image Database Search via Dimensionality Reduction Anders Bjorholm Dahl and Henrik Aanæs IEEE Computer Society Conference on Computer Vision.
1 Learning to Detect Objects in Images via a Sparse, Part-Based Representation S. Agarwal, A. Awan and D. Roth IEEE Transactions on Pattern Analysis and.

1 Learning to Detect Objects in Images via a Sparse, Part-Based Representation S. Agarwal, A. Awan and D. Roth IEEE Transactions on Pattern Analysis and.
1 Abstract This paper presents a novel modification to the classical Competitive Learning (CL) by adding a dynamic branching mechanism to neural networks.

1 Abstract This paper presents a novel modification to the classical Competitive Learning (CL) by adding a dynamic branching mechanism to neural networks.
Automatic Face Recognition Using Color Based Segmentation and Intelligent Energy Detection Michael Padilla and Zihong Fan Group 16 EE368, Spring 2002-2003.

Automatic Face Recognition Using Color Based Segmentation and Intelligent Energy Detection Michael Padilla and Zihong Fan Group 16 EE368, Spring
Video/Image Fingerprinting & Search Naren Chittar CS 223-B project, Winter 2008.

Video/Image Fingerprinting & Search Naren Chittar CS 223-B project, Winter 2008.
Pyramids of Features For Categorization Greg Griffin and Will Coulter (see Lazebnik et al., CVPR 2006, too)

Pyramids of Features For Categorization Greg Griffin and Will Coulter (see Lazebnik et al., CVPR 2006, too)
Smart Traveller with Visual Translator for OCR and Face Recognition LYU0203 FYP.

Smart Traveller with Visual Translator for OCR and Face Recognition LYU0203 FYP.
APPLICATION OF K-MEANS CLUSTERING The Matlab function “kmeans()” was used for clustering The parameters to the function were : 1. The matrix of entire.

APPLICATION OF K-MEANS CLUSTERING The Matlab function “kmeans()” was used for clustering The parameters to the function were : 1. The matrix of entire.
Distributed Model-Based Learning PhD student: Zhang, Xiaofeng.

Distributed Model-Based Learning PhD student: Zhang, Xiaofeng.

Similar presentations

Ads by Google