The Museum of Natural History will soon be the host of several animations produced by the Duderstadt Center covering an array of space-related subjects. From understanding the behavior of black holes, to demonstrations of the life cycle of stars, Stephanie O’Malley, digital artist of the Duderstatdt Center, has created the animations in collaboration with Matthew Linke, the planetarium director, Lydia Bieri, professor in mathematics, and Kayhan Gultekin, an assistant researcher in astronomy.
The Museum of Natural History houses a vast collection of natural history objects ranging from local birds species, to larger mammals, to the skeletons of mammoths. The museum is located on campus and provides educational opportunities and exhibits open to both the campus and the wider community. The planetarium is located on the top floor of the museum. Since 1958 the planetarium has put on informative shows about astronomy for visitors. A full-dome screen is used to immerse guests in the night sky, and throughout the year staff put on seasonal star talks using the dome to visualize what the sky looks like at that time of the year.
The collaboration between visualization artists and scientists produced well-researched visualizations on an array of astronomy topics. These animations are unique in that much of what has been visualized stems from raw data in many cases. Nobody has ever photographed these events actually occurring in space and they are largely hypothetical in some cases. These animations are scheduled to be projected on the museum’s full-dome screen and used as a tool in classes to better acquaint students with concepts discussed in class. They are also being featured for a short time in a separate exhibit outside of the planetarium space.
Those familiar with Saturday Morning Physics lessons may recognize some of the animations, as they were shown recently during Lydia Bieri’s spot discussing gravitational lensing and gravity waves (Click here for the link to the video).
The animations created were each part of National Science Foundation funded grants. They were created in After Effects and 3D Studio Max, using a special plugin (Domemaster 3D camera shader) for Full Dome Planetarium warping (this is what gives single frames of an animation the correct distortion to be projected onto the planetarium’s curved ceiling). Frames were then rendered at 1200-4k pixel resolution to accommodate even very large planetariums looking to feature these animations.
Robert Alexander is a Design Science Ph.D. Graduate and member of the Solar and Heliospheric Research Group. Working with NASA, Robert aims to use data audification to teach us something new about the Sun’s solar wind and is using mixed media coupled with unique interaction methods to pull viewers into the experience. The Duderstadt Center worked with Robert to put his research into video form:
User Story: Robert Alexander and Sonification of Data
Robert Alexander, a graduate student at the University of Michigan, represents what students can do in the Digital Media Commons (DMC), a service of the Library, if they take the time to embrace their ideas and use the resources available to them. In the video above, he talks about the projects, culture, and resources available through the Library. In particular, he mentions time spent pursuing the sonification of data for NASA research, art installations, and musical performances.
Over the years the Duderstadt Center has provided its services of visualization for a variety of NASA Proposals. Submitting a proposal requires a packet of information and visual aids that follow a strict format and series of guidelines.
Most recently, the Duderstadt Center assisted with the Mars Radar and Radiometry Subsurface Investigation (MARRSI) proposal. This was submitted in December 2013 and is currently awaiting a response. This proposal aims to implement new ways of tracing evidence of water in the martian soil, by utilizing the antenna of the existing Mars rovers. This antenna would detect signals from Earth that are reflected off the surface of Mars, thereby probing the soil for indications of water. The Duderstadt Center worked with the professor involved, as well as NASA’s Jet Propulsion Laboratory to design a proposal cover, diagrams and CDs for submission that adhere to the format requested.
Additionally, the Duderstadt Center was also involved in the Trace Gas Microwave Radiometer (TGMR) proposal. This proposal was centered on detecting the processes that produce and destroy methane gas on the surface of Mars. The goal of both of these proposals is to seek evidence of both methane and water on Mars, which may lead to discovering signs of bacterial life on Mars.
In the past, the Duderstadt Center designed mission logos and a cover for the Armada proposal. This proposal concerned documenting atmospheric events on Earth using cube satellites.