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GPS 2F-1 being completed at Boeing  (Source: Boeing)

GPS 2F satellite and Delta II rocket  (Source: United Launch Alliance)
Dozen new satellites will revitalize constellation

 

The Global Positioning System (GPS) has become an important part of global commerce, a far cry from its roots as a purely military system designed to aid in guiding Inter-Continental Ballistic Missiles. Everything from oil tankers to running shoes now incorporate GPS technology, thanks to shrinking designs and mass production.

Although the first Block I satellite was launched in 1978, the GPS network didn't achieve initial operational capability until December 1993. The GPS network requires a minimum of 21 satellites in medium Earth orbit to ensure global coverage, and a full network of 32 satellites is preferred for optimal performance and reliability.

There are currently thirty GPS satellites in orbit, but eleven of those are Block IIA satellites which were launched between 1990 and 1997. Those satellites were designed for a 7.5 year operational span, and the oldest four satellites in the constellation were launched in 1992. They have now been working for ten more years than planned; over twice the expected lifetime.

Those eleven satellites could fail at anytime, so the need for the newest Block 2F satellites has never been more apparent. However, the first GPS 2F launch had been delayed five times due to various problems. It finally launched at 2300 EDT and reached  orbit in 3.5 hours.

Boeing is building the twelve Block 2F GPS satellites for the US Air Force, which will continue to manage the constellation. New features include a doubling in the predicted signal accuracy; new L5 signals for civil and commercial aviation; a new "M-code" and variable power levels for the military that boosts performance and provides better resistance to jamming in hostile environments; a 12-15 year design life; and reduced operating costs. A new reprogrammable processor is also being used that can receive software uploads for improved system operation.

When the GPS system was first designed, a feature called "Selective Availability" was added that would create errors in the civilian signal, thus degrading performance. President Clinton ordered Selective Availability turned off in 1996, and the designs for Block 2F satellites were the first to not include SA hardware.

"The 12 GPS 2F satellites will provide improved signals that will enhance the precise global positioning, navigation and timing services supporting both the warfighter and the growing civilian needs of our global economy," said Col. Dave Madden, commander of the Global Positioning Systems Wing at the Space and Missile Systems Center.

GPS 2F-1 is currently taking over the Plane B, Slot 2 position of the constellation, replacing GPS 2A-27 launched in September 1996. It is a primary position in the network, which is divided into six orbital groupings with several satellites flying in each.

GPS 2A-27 will move into another slot in order to shore up weaker, but less critical parts of the network. Plane B, Slot 2 was originally supposed to be occupied by GPS 2R-20 in March 2009, but problems developed which precluded its usage.

Previous GPS launches over the past 20 years relied on Delta 2 rockets for delivery into orbit, but the $121 million Block 2F satellites use the larger and more capable Delta 4 and Atlas 5 rockets that can propel it directly into its orbit. Previous launches with Delta 2 rockets needed booster motors and several days to reach the desired position.

GPS 2F-1 is the 61st GPS satellite to launch, and the 50th GPS launch on a Delta rocket. Ground control will undergo a series of testing procedures over the next 90 to 120 days, after which GPS 2F-1 will enter service. The next satellite, GPS 2F-2, is currently scheduled for launch in November.

Three new Russian GLONASS satellites will attempt to launch in August in a bid to restore global coverage to their competing system, after being delayed from March. The first satellites in Europe's Galileo system are not expected to launch until 2014, but their signals could theoretically be used with GPS signals for even greater resolution with the properly designed hardware.

 



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RE: Error in article
By Jansen (blog) on 5/28/2010 12:02:46 PM , Rating: 2
It was designed for guiding ICBMs when they first thought of the system, but never actually implemented on the ICBM side AFAIK. It has and is currently being used for non-nuclear ordnance.


RE: Error in article
By namechamps on 5/28/2010 2:41:03 PM , Rating: 1
Got a cite for that.

The GPS system was never designed for ICBM. It was well known and understood that in any nuclear engagement the first targets would be the highly vulnerable GPS network. There is no possible way to defend GPS sats from military attack.

Thus nobody ever considered GPS to guide ICBM.


RE: Error in article
By namechamps on 5/28/2010 2:50:05 PM , Rating: 2
Clicked too fast.

Where GPS was considered was for identifying the location of ballistic submarines.

Inertia guidance only works if the starting location is precisely known. For silos this isn't much of a problem because they don't move and the location can be percisely identified.

However for submarines it is more tricky. Submarines use inertial guidance to determine their current location from know points however inertial guidance is subject to drift.

Having more "known points" globally increases the accuracy of all boomers knowing "where they are" at all times.

Thus in funding a goal for GPS network was to develop hyper accurate undersea maps thus improving the overall accuracies of the SSBN fleet at all times.


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