NASA’s ‘smart’ camera to aid discovery on distant worlds

September 10, 2013 03:31 pm | Updated June 02, 2016 10:54 am IST - Washington

NASA has developed a new camera system. File photo.

NASA has developed a new camera system. File photo.

NASA has developed a new camera system that can not only take pictures of alien rocks, it also draws meaning out of them — allowing a planet rover to decide if it should keep exploring a particular area or move on.

The Curiosity rover exploring Mars boasts impressive technology but future rovers will need more smart technology to explore more distant worlds, researchers said.

To help future rover and space missions spend less time waiting for instructions from Earth, Wagstaff and her colleagues developed an advanced two-lens camera, called TextureCam.

Although Curiosity and other rovers can already, on their own, distinguish rocks from other objects in photos they take, they must send images all the way to Earth for scientific analysis of a particular rock.

This process costs time and limits the potential scientific scope of rovers’ missions. TextureCam can do the analysis by itself, researchers said.

At the beginning of each Martian day, called a sol, scientists on Earth upload an agenda to a Mars rover. This scientific schedule details nearly all of the rover’s movements: roll forward so many meters, snap a photo, scoop a soil sample, run rudimentary tests on it and move on.

Even moving at light speed, instructions from Earth take about 20 minutes to reach the surface of Mars. This 40-minute round-trip makes real-time control of the rover impossible.

On Jupiter’s moon Europa, where astrobiologists suspect extraterrestrial life could exist, the delay balloons to over 90 minutes.

Mars-to-Earth communication costs precious power and trickles at a bandwidth of around 0.012 megabits per second — about 250 times slower than a 3G cellphone network.

Mars orbiters can help speed up the data transfer rate, though the satellites only orbit into correct alignment a few short minutes each day. Curiosity’s constrained connection limits the number of Martian images it can send back to Earth.

“If the rover itself could prioritise what’s scientifically important, it would suddenly have the capability to take more images than it knows it can send back. That goes hand in hand with its ability to discover new things that weren’t anticipated,” said Wagstaff.

When TextureCam’s stereo cameras snap 3D images, a special processor separate from the rover’s main computer analyses the pictures.

By recognising textures in the photos, the processor distinguishes between sand, rocks and sky. The processor then uses the size and distance to rocks in the picture to determine if any are scientifically important layered rocks.

The system’s built-in processor avoids straining the rover’s busy main processor. When TextureCam spots an interesting rock, it can either upload a high-resolution image back to Earth or send a message to the main processor to move towards the rock and take a sample.

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