Home News Boeing gets approval for GPS IIF production to commence

Boeing gets approval for GPS IIF production to commence

Nov 15, 2002-Boeing Integrated Defense Systems has received approval from the U.S. Air Force to begin space vehicle production of the first three satellites for the Global Positioning Satellite (GPS) IIF program, all of which will be built by Boeing Satellite Systems in El Segundo, Calif.

“The GPS satellites are also elements of the integrated battlespace, a network-based information system that takes data from many sources and ties it together to provide real-time information for those tasked with protecting the peace and defending the nation.”

The GPS IIF satellites will provide new capabilities, including new signals for civilian users and critical, secure Operational Military codes for the warfighter.

A new civilian signal, in the protected Aeronautical Radio Navigation System frequency band, provides redundant safety of life services for civil aviation users and increased accuracy for a host of other users worldwide.

In addition, GPS IIF is compatible with the U.S. Air Force’s Expendable Launch Vehicle (EELV) and will provide 20% more on-orbit life than previous GPS spacecraft. The Air Force has chosen the Boeing Delta IV to launch 21 of its 28 EELV payloads.

Designed for flexibility and growth, the GPS IIF system architecture can affordably accommodate hardware and software changes through incremental technology upgrades to improve efficiency and introduce new military capabilities including anti-jam, greater accuracy, better availability and higher integrity.

This incremental upgrade approach to the GPS IIF program will, in turn, reduce the technical risks inherent in developing GPS III, the next generation satellite system, as well as answer the near term needs of the warfighter today.

The Boeing-led Control Segment team, that includes Lockheed Martin and Harris Corporation, will also play a key role in the modernization of the entire GPS ground system architecture design to reduce operator workload and operational costs