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ORCIDLDAV 2015: Chicago, IL, USA
- Janine Bennett, Hank Childs, Markus Hadwiger:
5th IEEE Symposium on Large Data Analysis and Visualization, LDAV 2015, Chicago, IL, USA, October 25-26, 2015. IEEE Computer Society 2015, ISBN 978-1-4673-8517-6
Feature Extraction and Tracking
- Yucong Chris Ye, Yang Wang, Robert Miller, Kwan-Liu Ma, Kenji Ono:
In situ depth maps based feature extraction and tracking. 1-8 - Wathsala Widanagamaachchi, Jackie Chen, Pavol Klacansky, Valerio Pascucci, Hemanth Kolla, Ankit Bhagatwala, Peer-Timo Bremer:
Tracking features in embedded surfaces: Understanding extinction in turbulent combustion. 9-16 - Jinrong Xie, Franz Sauer, Kwan-Liu Ma:
Fast uncertainty-driven large-scale volume feature extraction on desktop PCs. 17-24
Scientific Visualization Algorithms
- Junpeng Wang, Mai Elshehaly
, Yong Cao:
Cylindrical acceleration structures for large hexahedral volume visualization. 25-31 - William J. Schroeder, Robert Maynard, Berk Geveci:
Flying edges: A high-performance scalable isocontouring algorithm. 33-40 - Roxana Bujack, Kenneth I. Joy:
Lagrangian representations of flow fields with parameter curves. 41-48
Aggregation and Binning I
- Kewei Lu, Han-Wei Shen:
A compact multivariate histogram representation for query-driven visualization. 49-56 - Pak Chung Wong, David J. Haglin, David Gillen, Daniel G. Chavarría-Miranda, Vito Giovanni Castellana, Cliff A. Joslyn, Alan R. Chappell, Song Zhang:
A visual analytics paradigm enabling trillion-edge graph exploration. 57-64 - Tyson Neuroth, Franz Sauer, Weixing Wang, Stéphane Ethier, Kwan-Liu Ma:
Scalable visualization of discrete velocity decompositions using spatially organized histograms. 65-72
Exascale Visualization
- Stephanie Labasan, Matthew Larsen, Hank Childs:
Exploring tradeoffs between power and performance for a scientific visualization algorithm. 73-80 - Shaomeng Li, Kenny Gruchalla, Kristin Potter, John P. Clyne, Hank Childs:
Evaluating the efficacy of wavelet configurations on turbulent-flow data. 81-89 - Christopher M. Sewell, Li-Ta Lo, Katrin Heitmann, Salman Habib, James P. Ahrens:
Utilizing many-core accelerators for halo and center finding within a cosmology simulation. 91-98
Aggregation and Binning II
- Alexandre Perrot, Romain Bourqui, Nicolas Hanusse, Frédéric Lalanne, David Auber:
Large interactive visualization of density functions on big data infrastructure. 99-106 - Caleb Reach, Chris North:
Bandlimited OLAP cubes for interactive big data visualization. 107-114 - James Kress, Erik Anderson, Hank Childs:
A visualization pipeline for large-scale tractography data. 115-123
Posters
- Woohyuk Choi, Won-Ki Jeong:
Vispark: GPU-accelerated distributed visual computing using spark. 125-126 - Terrence P. Fries:
Fuzzy clustering of network traffic features for security. 127-128 - Jarek Gryz, Parke Godfrey, Piotr Lasek, Nasim Razavi:
Skydive: An interactive data visualization engine. 129-130 - Aamir Islam, Ragaad AlTarawneh, Shah Rukh Humayoun, Sascha Baron, Achim Ebert:
ViQAP: Visualizing quality aspects of public transportation between cities in a region. 131-132 - Jie Jiang, Mark Hereld, Joseph A. Insley, Michael E. Papka, Silvio Rizzi, Thomas D. Uram, Venkatram Vishwanath:
Streaming ultra high resolution images to large tiled display at nearly interactive frame rate with vl3. 133-134 - Xinxiao Li, Akira Kuroda, Hidenori Matsuzaki, Nobuyasu Nakajima:
Distributed aggregate computation between server and client for interactive visualization. 135-136 - Xinxiao Li, Akira Kuroda, Hidenori Matsuzaki, Nobuyasu Nakajima:
Advanced aggregate computation for large data visualization. 137-138 - Mark A. Livingston, Stephen Russell, Jonathan W. Decker, Eric Leadbetter, Antonio Gilliam:
CEDARS: Combined exploratory data analysis recommender system. 139-140 - Silvio Rizzi, Mark Hereld, Joseph A. Insley, Michael E. Papka, Thomas D. Uram, Venkatram Vishwanath:
Large-scale co-visualization for LAMMPS using vl3. 141-142 - Andrea Schnorr, Jens Henrik Göbbert, Torsten W. Kuhlen, Bernd Hentschel:
Tracking space-filling structures in turbulent flows. 143-144
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