Northrop Grumman [NOC] recently said it was awarded a $5.75 million contract from the Air Force to provide research and development for the Modular Architecture for Signal-processing, Tracking and Exploitation Research (MASTER) program.
The contract was awarded by the Space and Missile System Center’s Development Planning Directorate, located at Los Angeles AFB, Calif.
MASTER supports the government ground processing effort for the Air Force’s Commercially Hosted IR Payload (CHIRP) program’s on-orbit period, the company said in a statement. An experimental CHIRP sensor is hosted on a commercial SES satellite operating in geosynchronous orbit over the United States. The SES satellite was successfully launched on Sept. 21 from French Guiana.
“MASTER provides an important sensor-agnostic ground processing capability for our customer,” said Ron Alford, Northrop Grumman’s director, sensor exploitation systems and Colorado campuses. “The architecture utilizes an enterprise approach with an open architecture and plug-and-play components. In future data processing systems, measurable cost savings can be enjoyed by using the MASTER architecture to provide common processing capabilities across sensor types and system constellations without the need for customized processing chains.”
MASTER has been successful in integrating and using algorithms provided by outside third parties as well as processing data from multiple operational OPIR sensors and new experimental simulated data. The architecture also has enabled innovative parallel data processing with multiple plug-and-play algorithms, along with significant advances in star and static-source line-of-site correction methods.
The MASTER contract is a follow-on effort to the Alternative Infrared Satellite System program, begun in 2006 and renamed Third Generation Infrared Surveillance as a technology maturation program. MASTER has been focused on developing an open, plug-and-play, sensor-agnostic processing architecture for the government to use in evaluating whole earth- staring array sensors.