Newswise — A team of University of Arizona engineering seniors recently finished a 2-week simulated mission to Mars to test a camera they are designing for NASA.

The students’ senior project, part of the Interdisciplinary Engineering Design Program at the University of Arizona College of Engineering, is to develop the NASA-sponsored remote imaging system acquisition, or RISA.

New mission requirements mean that future NASA space vehicles will have less room, which is why NASA specified that RISA should incorporate the abilities of multiple existing cameras into a single system.

This means that RISA will do double duty as a camera for rover-based planetary surface exploration, and for onboard use in NASA space vehicles. The project is sponsored by NASA’s Johnson Space Center and is currently in its sixth year of development.

The student team, aka Crew 117, was holed up for 2 weeks in the Mars Desert Research Station, a simulated Mars habitat managed by the Mars Society near Hanksville, Utah. Videographer Daniel Land accompanied the team.

During the mission, Crew 117 simulated living on Mars, including treating the outside environment as the space environment, and using simulated space suits, known as “sim suits,” for all extravehicular activities, or EVAs.

The crew lived in a two-story habitat, known as the “hab,” from where they had access to a greenhouse, a telescope and observatory, and all-terrain vehicles for EVAs. “The surrounding area is very remote, so the complete isolation aids in creating the simulated environment,” said Kyle Stephens, crew commander and optical engineering senior.

This was Stephens’ second simulated mission to Mars. In December 2010, he was a member of Crew 96, an engineering team that prepared the Mars Desert Research Station, or MDRS, for the 2011 field season.

Seasons end in May, which allows time for up to 10 missions before the desert heat sets in. Stephens also leads the RISA senior design project back on Earth at the UA College of Engineering.

Crew 117 tested the RISA camera by conducting projects in geology, astronomy, water monitoring, greenhouse monitoring, and vehicle testing. “We are testing the camera’s electrically tunable multispectral filter by imaging the atmosphere at specific wavelengths to determine water vapor content,” Stephens had said during the mission.

Stephens said the team explored the area using a small remote-control rover, in addition to performing some EVAs. The crew built the camera as a wireless system, he said, so the camera could be used as a tool for robotic navigation.

During the mission, which was supported by a UA/NASA Space Grant, the crew also wanted to prove that the camera could be used for everyday operational duties, such as determining water tank levels, monitoring equipment operation, checking plant health in the greenhouse, and monitoring crew activities.

Results from these tests will be incorporated into RISA and readied for the senior design team to present to judges and the public at Engineering Design Day 2012, which will be held Tuesday, May 1 in Bear Down Gym on the UA campus in Tucson, Ariz.

Crew 117 is confident that the extreme testing will help their camera design to meet NASA mission requirements. “These new NASA mission objectives require the final prototype to be radiation hardened, multispectral, completely wireless, and take both high-quality video and still images,” Stephens said.

The RISA project still has some distance to go before it is ready for operation. “While we focused on developing key components, like the optical design and the wireless communication system,” Stephens said, “more work will need to be done to create a flight-certified system.”

“Finishing the project was not in the scope of our year,” added Stephens, “but we have compiled a great amount of information and hardware that will help future teams move forward with the project.”

In addition to Stephens and the videographer, Crew 117 includes the other members of the RISA senior design team: Parker Owan, electrical engineering major, mission executive officer and crew scientist; Jackeline Mayer, majoring in optical sciences and engineering, and crew health and safety officer; Lee Suring, crew engineer and mechanical engineering senior; and Sam Martin, crew engineer, majoring in optical sciences and engineering.

The crew settled in and got to work quickly, and didn’t experience any reality-TV-style confrontations, although mission XO Parker Owan was looking forward to a little more physical freedom. “I think being unable to do outdoor activities without going through a lengthy suit-up process is the worst part because I love being outside all the time,” Owan said during the mission. “Even then, you’re still enclosed in a stifling suit that doesn’t allow for a whole lot of airflow. I think when it is all done, going outside will be the thing I look forward to most.”

Not every activity aboard the hab is mission critical, and the crew has some down time. They are helping with a study to determine what kind of food is most suited to interplanetary travel. “With six people in a small hab,” said crew engineer Sam Martin, “freeze-dried chili is a bad idea.”

There is always gardening and maintenance to be done, Stephens said, “but there’s no escape from homework.”

More information on the Interdisciplinary Engineering Design Program at the University of Arizona College of Engineering can be found here

http://engr.arizona.edu/academic/index.php?ID=135

And more information on UA College of Engineering Design Day is here

http://www.engineering.arizona.edu/news/story.php?id=444

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