Multi-robot planetary exploration would be a complex affair,
with humans working with a diverse team of mobile robots operating in a variety
of control modes. Aurora Flight Sciences, MIT's Manned Vehicle Laboratory
(MVL), and MIT Humans and Automation Laboratory (HAL) have just won a NASA
Small-Business Technology Transfer Research proposal to develop a software
system that performs command and control.
According to a press release issued by Aurora Flight
Sciences:
"'Aurora sees this as an opportunity to expand its
multi-vehicle coordination capabilities into the realm of planetary
exploration. We view this project as a natural integration of our expertise
in space systems and in tools for planning and coordinating autonomous teams,'
said Dr. James Paduano, Autonomy Controls and Estimation Group Lead.
Mobile robots operating in teams will be instrumental in
extending human reach in planetary exploration... However, communication delays
to remote
robot teams and/or the limited supervision that an astronaut can provide
make it necessary for the robot team to perform coordinated tasks robustly and
autonomously. To address this problem, Aurora and MIT will combine multi-agent
planning algorithms, human interfaces, and associated expertise into a
multi-robot, human supervised system that can operate with long time delays
between human interactive inputs... "
The system will provide ground control user interfaces and
data management that:
- allows for interactive user control of the robot team in a
time-delayed control environment
- maintains operator situational awareness, providing a
human interface for setting up a task queue that can be autonomously
executed with limited/no human interaction
- allows the multi-robot team to optimize task performance
as geospatial, navigation and other sensor information is gathered, and
- is supported by recent algorithm and software developments
in the military multi-vehicle control regime (including human interfaces).
Science fiction writers have long recognized the value of
having teams of planetary exploration robots that would cooperate with each
other and work with people in various control modes.
"'Look, that robot, DV-5, has six robots under it. And
not just under it - they're part of it...'
He watched the posturings of the robots on the visiplate.
They were bronzy gleams of smooth motion against the shadowy crags of the
airless asteroid. There was a marching formation now, and in their own dim body
light, the rough-hewn walls of the mine tunnel swam past noiselessly, checkered
with misty erratic blobs of shadow. They marched in unison, seven of them, with
Dave at the head. They wheeled and turned in macabre simultaneity; and melted
through changes of formation with the weird ease of chorus dancers in Lunar
Bowl."
(The robot team
from Isaac
Asimov's story Catch That Rabbit [1944])
If you're as interested in team robotics as NASA, don't miss
reading how the COTS
Scout: Team Building Robot works well with others, and this story about Robotic
Safety Barrels: Smart Traffic Cones.
From Aurora Flight Sciences Wins NASA Contract for Multi-Robot
Planetary Exploration.
(This Science Fiction in the News story used with
permission of Technovelgy.com).
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