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HOLOGRAPHY - How it Works - With our visualization solutions you can produce images/ video in any sizeor shape, front or rear projected, spherical, cylindrical, conic or flat screen, from small screens to large-scale dome configurations. bit.ly/2cKiRtX
The Physical Visualization consists of layered 2D plots, in which the x axis represents energy sources, the y axis countries and the z axis (layers) time. Each data case is represented by an engraved circle in the respective acrylic glass layer.
You might be familiar with Buza's amazing twitter visualizations from a few months ago. He recently invited me to test a system he has been putting together to let anyone generate the same kind of images based on their own web data.
The system works as follows: First, the user crawls the web and prepares some data ahead of time (images, graph structures, etc). Using a python script, the user feeds the data to an OpenGL context that is running an instance of the Bullet physics engine. Live interaction with the visualized data can happen there in a manner similar to E15,. When a desired view is produced or found, the system can generate a Sunflow scene file, that can be later used to render an image similar to the one featured here.
I haven't done much, just grabbed some data I harvested a while ago from openstudio and the tiny icon factory, and threw it in there to see how it looks. I hope to help Buza tweak some bugs and reach some design decisions while experimenting with Sunflow and rendering some coolness in the process.
for more information about the Midwest Labyrinth Gathering, check out: www.paxworks.com
Lisa Moriarty led the design and construction of this labyrinth; her Website is: www.pathsofpeace.com/home.html
The Physical Visualization consists of layered 2D plots, in which the x axis represents energy sources, the y axis countries and the z axis (layers) time. Each data case is represented by an engraved circle in the respective acrylic glass layer.
CeCee Clifford,
Model: Jackie Schroeder,
Large Format Camera {4x5 Film},
Professor: Jack Barnosky,
Visualizations, Spring 2013
Visualizations from an experiment with del.icio.us. For full details visit mandalabrot.net/delicious
This is a map of my bike ride to PCC. The width of the line shows how slow I was moving - the line thickens up at my house, at PCC, and at stop lines and hills.
Information et visualisation
Behind the blip
Sofwares studies
Designing gestural interfaces
Visualizing data
Semiologie graphique
the visual display of quantitative data
données a voir
Data flow
TBS is apparently using the same tech that lays down the first-down lines and other graphics during football games, only here they're using it to show a runner's lead off first base.
Neat.
This is an example of the processing done by my music visualizer for iTunes on the Mac
more at www.fraktus.com/exo/exo_flickr.php
Or download it at fraktus.com/exo/eXo_12.dmg
The picture processed is downloaded automaticaly from the Flickr web site and is not mine, so it's a collective piece of art :-)
Here it's a simple slide show with the music spectrum on top.
The pictures are downloaded in low resolution to avoid using too much bandwidth.
The Foundation develops a data visualization tool in conjunction with its landmark Survey of the Afghan People. Visualizing Afghanistan brings even more accessibility to the Foundation’s extensive survey data on Afghanistan. Users can map responses by region, compare national or regional totals on a year-by-year basis, or expand and explore supplementary data.
Edited Dawn PR image of a visualization of the internal structure of Ceres. Color/processing variant.
Image source: photojournal.jpl.nasa.gov/catalog/PIA22660
Original caption: This artist's concept summarizes our understanding of how the inside of Ceres could be structured, based on the data returned by the NASA's Dawn mission.
Using information about Ceres' gravity and topography, scientists found that Ceres is "differentiated," which means that it has compositionally distinct layers at different depths. The most internal layer, the "mantle" is dominated by hydrated rocks, like clays. The external layer, the 24.85-mile (40-kilometer) thick crust, is a mixture of ice, salts, and hydrated minerals. Between the two is a layer that may contain a little bit of liquid rich in salts, called brine. It extends down at least 62 miles (100 kilometers). The Dawn observations cannot "see" below about 62 miles (100 kilometers) in depth. Hence, it is not possible to tell if Ceres' deep interior contains more liquid or a core of dense material rich in metal.
Dawn's mission is managed by JPL for NASA's Science Mission Directorate in Washington. Dawn is a project of the directorates Discovery Program, managed by NASA's Marshall Space Flight Center in Huntsville, Alabama. JPL is responsible for overall Dawn mission science. Orbital ATK Inc., in Dulles, Virginia, designed and built the spacecraft. The German Aerospace Center, Max Planck Institute for Solar System Research, Italian Space Agency and Italian National Astrophysical Institute are international partners on the mission team.
For a complete list of Dawn mission participants, visit dawn.jpl.nasa.gov/mission.
For more information about the Dawn mission, visit dawn.jpl.nasa.gov.
Image Credit:
NASA/JPL-Caltech/UCLA/MPS/DLR/IDA
Image Addition Date:
2018-08-14