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New Sensor Sought to Enable Military Missions in GPS-Denied Areas |
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New Sensor Sought to Enable Military Missions in GPS-Denied Areas
April 16, 2012
 Many
U.S. Military systems, such as missiles, rely on the Global Positioning System (GPS) to provide accurate position,
orientation and time information while in flight. When GPS is inaccessible, whether as a result of a malfunction
or as a consequence of enemy action, information critical for navigation must be gathered using the missile's
on-board sensors.
DARPA’s Chip-Scale Combinatorial Atomic Navigator (C-SCAN) effort seeks an atomic
inertial sensor to measure orientation in GPS-denied environments. Such a sensor would integrate small size, low
power consumption, high resolution of motion detection and a fast start up time into a single package.
“Platforms such as missiles rely on GPS for a variety of information,” explained
Andrei Shkel, DARPA
program manager. “When GPS is not available gyroscopes provide orientation, accelerometers provide position and
oscillators provide timing. The new C-SCAN effort focuses on replacing bulky gyroscopes with a new inertial
measurement unit (IMU) that is smaller, less expensive due to foundry fabrication and yields better performance.”
The inertial measurement unit sought by C-SCAN will co-integrate both solid state and atomic inertial sensors into
a single microsystem. This new IMU would benefit from devices with dissimilar physics, yet complementary
characteristics: short startup times, and long-term, stable performance.
Before C-SCAN can be built,
research is needed to explore the miniaturization and co-fabrication of atomic sensors with solid-state inertial
sensors. Algorithms and architectures are sought to seamlessly co-integrate the components. Those wishing to
participate in the C-SCAN effort are encouraged to review the full solicitation located at
www.fbo.gov.
C-SCAN supports the
Micro-Technology for Positioning, Navigation and Timing (micro-PNT) program, which is developing
micro-technology for self-contained, chip-scale inertial navigation and precision guidance that would greatly
reduce the dependence on GPS while enabling uncompromised navigation and guidance capabilities for advanced
munitions, various military platforms, under a wide range of operation conditions.
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