Real-Time Visualizations of Ocean Data Collected By The NORUS Glider in Svalbard, Norway

Modern robotics and sensors have expanded the ability to collect science data in underwater settings. Oftentimes, the collected data are deposited into files and databases where they sit in their separate and unique formats. Without easy to use visualization tools, it is difficult to understand and...

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Bibliographic Details
Main Authors: Daniel Medina, Mark Moline, Christopher Clark, Zoƫ J. Wood
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Subjects:
KEY WORDS
Scientific Visualization
Slocum Glider
Scattered data
Arctic
Norway
Svalbard
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.649.795
http://users.csc.calpoly.edu/~zwood/research/pubs/Medina_ISOPE.pdf
Description
Summary:Modern robotics and sensors have expanded the ability to collect science data in underwater settings. Oftentimes, the collected data are deposited into files and databases where they sit in their separate and unique formats. Without easy to use visualization tools, it is difficult to understand and interpret the information within these data sets. NORUS, the North America-Norway educational program, has a scientific focus on how climate-induced changes impact the living resources and ecosystems in the Arctic. In order to obtain the necessary science data, the NORUS program utilizes the Slocum Glider, a form of underwater robot. We present a compelling, efficient, and easy to use interactive system for visualizing large sets of science data collected by the Slocum Glider. This goal is obtained through the implementation of various methods taken from scientific visualization, real time rendering, and scattered data interpolation. Methods include visualizations of the surrounding terrain, the ability to map various science data to glyphs, control over color mapping, and scattered data interpolation.

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