Lockheed Martin GPS III Satellite Prototype Successfully
Integrated With Raytheon OCX Ground Control Segment
Sept. 23, 2013
The prototype for Lockheed
Martin next generation GPS III satellite reached a major
milestone on August 30 when it successfully established
remote connectivity and communicated with the GPS Next
Generation Operational Control System (OCX), being developed
by Raytheon [NYSE: RTN], during a series of pre-flight
tests.
During the Compatibility and Integration (C&I) Tests,
Lockheed Martin’s GPS III Non-flight Satellite Testbed
(GNST) – a full-sized, functional satellite prototype
currently residing at Cape Canaveral Air Force Station –
proved that it could connect with and receive commands from
Raytheon’s Launch and Check Out System (LCS), part of the
next-generation OCX that supports the satellite and
mitigates risks prior to launch.
The GNST received commands from the LCC node at Lockheed
Martin’s facility in Newtown, PA via the OCX servers at
Raytheon's facility in Aurora, CO, the system then returned
satellite telemetry to the control station. The tests
mirror launch and early orbit testing planned for all flight
vehicles.
“The GNST is essentially a non-flying, functional GPS III
satellite. While we have connected OCX with
ground-based simulators before, these C&I tests were the
first time that OCX and a GPS III satellite have actually
communicated,” explained Keoki Jackson, vice president for
Lockheed Martin’s Navigation Systems mission area.
Matthew Gilligan, a vice president with Raytheon’s
Intelligence, Information and Services business and
Raytheon’s GPS OCX program manager, stated, “This was an
invaluable early opportunity to demonstrate command and
control of the GPS III satellite with LCS, proving the
end-to-end system capabilities well before putting an actual
GPS III in orbit. The positive results tell us that we are
right on track for the first GPS III launch.”
The LCS works hand-in-hand with Lockheed Martin’s Launch
and Checkout Capability (LCC) contract, which brings online
some of OCX’s GPS III-specific capabilities early to provide
on-orbit checkout and control of the satellites.
The GNST has been at the Cape since July dry-running
launch base space vehicle processing activities and
pre-launch testing that all future flight GPS III satellites
will undergo. The first flight GPS III space vehicle
(SV-01) is expected to be available for launch in 2014, and
launched by the U.S. Air Force in 2015.
Prior to shipment to the Cape, the GNST was developed and
then completed a series of high-fidelity activities to
reduce program risks, improve efficiencies and pathfind the
integration, test and environmental checkout that all
production GPS III satellites undergo at Lockheed Martin’s
new GPS III Processing Facility in Denver, Colo.
An innovative investment by the Air Force under the
original GPS III development contract, the GNST has helped
to identify and resolve development issues prior to
integration and test of SV-01. Following the Air Force’s
rigorous “Back-to-Basics” acquisition approach, the GNST has
gone through the development, test and production process
for the GPS III program first, significantly reducing risk
for the flight vehicles, improving production
predictability, increasing mission assurance and lowering
overall program costs.
The Lockheed Martin-developed GPS III satellites and
Raytheon‘s OCX are critical elements of the U.S. Air Force’s
effort to modernize the GPS enterprise more affordably while
improving capabilities to meet the evolving demands of
military, commercial and civilian users worldwide.
GPS III satellites will deliver three times better
accuracy; provide up to eight times more powerful
anti-jamming capabilities; and include enhancements which
extend spacecraft life 25 percent further than the prior GPS
block. The GPS III also will carry a new civil signal
designed to be interoperable with other international global
navigation satellite systems, enhancing civilian user
connectivity. The spacecraft bus and antenna
assemblies for the first GPS III satellite have been
delivered to Lockheed Martin’s GPS III Processing Facility
and are in the integration and test flow leading to the
planned space vehicle delivery in 2014.
Lockheed Martin is currently under contract for
production of the first four GPS III satellites (SV 01-04),
and has received advanced procurement funding for long-lead
components for the fifth, sixth, seventh and eighth
satellites (SV 05-08).
OCX will revolutionize GPS command and control and
mission management capabilities, controlling all legacy and
new military and civil signals, providing protection against
evolving cyber threats and ensuring continuity of operations
during cyber attacks, and reducing operation and sustainment
costs through efficient software architecture, automation
and performance-based logistics. OCX represents a
quantum leap in capabilities over the current Operational
Control System and provides flexibility and adaptability to
meet future GPS mission needs. Raytheon is the OCX
prime contractor and is on track to deliver the final Launch
and Checkout System in 2014.
The GPS III team is led by the Global Positioning Systems
Directorate at the U.S. Air Force Space and Missile Systems
Center. Lockheed Martin is the GPS III prime contractor with
teammates ITT Exelis, General Dynamics, Infinity Systems
Engineering, Honeywell, ATK and other subcontractors.
Raytheon is the GPS OCX prime contractor with teammates ITT
Exelis, Boeing, Braxton, Infinity Systems Engineering, and
NASA’s Jet Propulsion Laboratory. Air Force Space Command’s
2nd Space Operations Squadron (2SOPS), based at Schriever
Air Force Base, Colo., manages and operates the GPS
constellation for both civil and military users.
