The fifth GPS III satellite was encapsulated within a SpaceX payload fairing on June 9 in preparation for its June 17 launch.
The U.S. Space Force’s Space and Missile Systems Center’s Lockheed Martin-built GPS III Space Vehicle 05 satellite was encapsulated within a SpaceX payload fairing at Astrotech Space Operations Florida facility on June 9 in preparation for launch, scheduled for June 17 from Cape Canaveral Space Force Station.
The 15-minute launch window opens 12:09 p.m. EDT. If SpaceX provides a live feed to view the launch, it will be available here.
Encapsulation of the satellite within the payload fairing protects the satellite from the impact of dynamic pressure and aerodynamic heating during its harrowing journey through the earth’s atmosphere, and supports the ability to communicate with the satellite until separation from the launch vehicle on orbit.
“The GPS III program continues to make strides in modernizing the GPS constellation for the United States Space Force, maintaining the ‘gold standard’ for position, navigation and timing,” said Col. Edward Byrne, Medium Earth Orbit Space Systems division chief, “SV05 is not only the first-ever USSF satellite launched on a previously flown booster, but also is the 24th military-code (M-xode) satellite introduced to our constellation, the last needed to bring M-code to full operational capability.”
GPS III SV05 will join the current 31-satellite operational constellation to continue to provide the gold standard in positioning, navigation and timing services for more than four billion users worldwide.
The Space and Missile Systems Center, located at Los Angeles Air Force Base in El Segundo, California, is the U.S. Space Force’s center of acquisition excellence for acquiring and developing military space systems. Its portfolio includes the development of advanced space and launch capability and systems, global navigation satellite systems, military satellite communications, defense meteorological satellites, space launch and range systems, satellite control networks, space-based infrared systems, and space situational awareness capabilities.
GPS III SV05 is encapsulated within a SpaceX payload fairing at Astrotech Space Operations Florida in preparation for its June 17 launch. (Photo: Lockheed Martin)
BAE Systems Inc. has received a $325.5 million contract from the Defense Logistics Agency for advanced military code (M-code) GPS modules that will provide reliable and secure positioning, navigation and timing data with anti-jamming and anti-spoofing capabilities.
The modules will help warfighters conduct operations in contested electronic warfare environments.
“Our state-of-the-art GPS technology works with the advanced military M-code signal to provide reliable information to the warfighters who depend on it,” said Greg Wild, director of Navigation and Sensor Systems at BAE Systems. “This contract will ensure the availability of M-code module inventory to build advanced, next-generation GPS receivers.”
Under the multi-year contract, BAE Systems will deliver Modernized GPS User Equipment (MGUE) Increment 1 Common GPS Modules (CGMs) compatible with the advanced M-code signal to support the U.S. Department of Defense and international allies through 2030.
BAE Systems will manufacture the modules, manage their inventory on behalf of the Defense Logistics Agency, and use them to build military-grade GPS receivers for ground and precision-guided munitions.
BAE Systems’ portfolio of M-code GPS receivers provides flexible, efficient, and reliable navigation and guidance solutions for airborne systems, precision munitions, handheld receivers, and embedded applications.
The Space and Missile Systems Center’s Production Corps achieved a major GPS milestone on Nov. 18 with the approval for Operational Acceptance of GPS Military-Code (M-Code) Early Use (MCEU). MCEU serves as a gap filler for M-code operations before the entire GPS constellation’s operational transition to the Next Generation Operational Control System Block 1.
The encrypted M-code signal enhances anti-jamming and anti-spoofing capabilities for the warfighter. M-code signals are available on all 23 GPS Block IIR-M, IIF and III space vehicles currently on orbit. The successful testing events were completed at the Master Control Station at Schriever Air Force Base, Colorado and Alternate Master Control Stations at Vandenberg Air Force Base, California.
Operational Acceptance followed successful integrated developmental and operational testing of the GPS Operational Control Segment (OCS) upgrade. Operating in a trial period since June 2020, the MCEU upgrade allows the OCS Architecture Evolution Plan to task, upload and monitor M-code within the GPS constellation, as well as support testing and fielding of modernized user equipment. With M-code now declared operational, upcoming Military GPS User Equipment (MGUE) will be able to request early use of the M-code signal-in-space to provide more secure position, navigation and timing (PNT) to warfighters.
“MCEU ushers in a new era of GPS support that will provide operators across the warfighting domain with assured PNT access while further preventing unauthorized use by our adversaries. This is a critical step in remaining the gold standard of PNT systems and promoting a peaceful, secure, stable, and accessible space domain,” said Lt. Jordan Malara, 2nd Space Operations Squadron GPS Warfighter Collaboration Cell assistant flight commander.
M-code designed for security
Military code (M-Code) is a more-secure, harder-to-jam and spoof GPS signal specifically for military forces. Awarded in September 2017, M-Code Early Use (MCEU) is a software upgrade to the OCS AEP, which allows the current ground control system to task, upload and monitor M-Code within the GPS constellation. It will also help Accelerating M-Code’s deployment supports testing and fielding of modernized user equipment in support of the warfighter.
MCEU includes a new software-defined receiver installed globally at all six Space Force Monitoring Sites. The M-code Monitor Station Technology Improvement and Capability (M-MSTIC) uses commercial, off-the-shelf hardware to cost effectively receive and process M-code signals, enabling OCS operators to successfully monitor the M-code signals.
“M-code’s more-secure, harder-to-jam and spoof signals are critical to helping our warfighters complete their missions, especially in contested environments,” said Maria Demaree, vice president and general manager for Lockheed Martin’s Mission Solutions line of business. “This upgrade to the current GPS ground control system, and the launch of more modernized GPS III satellites, is making M-code’s full-fielding a reality.”
With the Dec. 1 Operational Acceptance of GPS III Space Vehicle 04 (GPS III SV04), 23 GPS IIR-M, GPS IIF and GPS III satellites broadcast M-code in the current GPS Constellation.
Ground Control Timeline — OCS AEP
Lockheed Martin has sustained the Space Force’s current GPS ground control system since 2013. The system is known as the GPS Operational Control Segment (OCS) Architecture Evolution Plan (AEP) or “OCS AEP.”
In February 2016, the Air Force contracted Lockheed Martin to develop the GPS III Contingency Operations (COps) software upgrade to the OCS AEP. COps was delivered in May 2019, successfully connected with on-orbit GPS III SV01 in October 2019, and was Operationally Accepted in February 2020. COps enabled the Air Force’s ground control system to command and control both the legacy satellites, as well the more powerful GPS III satellites beginning to launch.
In November 2018, the company completed the AEP 7.5 upgrade — the largest architectural change in the systems history — replacing significant code, hardware and software to improve the system’s cybersecurity capabilities and positioning the Air Force to better operate in contested, degraded and operationally limited environments.
In December 2018, the Air Force awarded Lockheed Martin the GPS Control Segment Sustainment II (GCS II) contract to continue to further modernize and sustain the OCS AEP through 2025.
In the fourth quarter of 2019, Lockheed Martin delivered the Red Dragon Cybersecurity Suite (RDCSS) Phase III upgrade to the OCS AEP, dramatically improving Defensive Cyber Operations (DCO) visibility into GPS network traffic. Other add-ons include user behavior analytics to analyze patterns of traffic and network taps to improve data collections.
Earlier this year — and key to enabling M-Code — Lockheed Martin installed new software-defined M-Code Monitor Station Technology Capability (M-MSTIC) receivers at six Space Force monitoring sites around the world. In Dec. 2019, SMC granted security approval for M-MSTIC.
From his side window, a crew chief relays vital position information back to the CH-47 Chinook pilot as paratroopers hook their pallet of equipment to the underside of the helicopter during sling load and air operations training. (Photo: U.S. Army/Maj. Robert Fellingham)
The fourth GPS III satellite, space vehicle (SV) 04, received United States Space Force’s Operational Acceptance approval on Dec. 1.
Operational acceptance marks another significant milestone for the GPS III program, Space and Missile Systems Center and USSF, according to the Space Force. This is the fourth GPS III satellite delivered into the operational constellation in the past 12 months and the second in the past three months.
Also, this is the first GPS III vehicle delivered to the warfighter through an expedited satellite control authority transfer process, which cuts 10 days off the previous operational acceptance timeline.
One more to go for M-code capability
“With the onset of SV04, the GPS constellation continues moving forward in next generation modernization,” said Capt. Collin Dart, the 2 SOPS DOA flight commander. “The 2nd Space Operations Squadron is one step closer to providing military code (M-code) capability for the entire 24 satellite baseline.”
“The highly encrypted M-code to protect GPS signals from jamming and spoofing is currently enabled on 22 GPS satellites of various generations; 24 are needed to bring the M-code to the next level of operational capability,” Dart explained. “SV04 brings the constellation to 23 M-code capable vehicles. SV05 will launch no earlier than July 2021. This will add the 24th M-code capable vehicle.”
“M-code signals are more-secure, harder-to-jam and spoof, and are critical to helping our warfighters complete their missions, especially in contested environments,” said Tonya Ladwig, Lockheed Martin’s vice president for Navigation Systems. “GPS III is a warfighting system and we are proud to be helping bring this critical capability to the men and women protecting our nation.”
GPS III SV04 is encapsulated in its protective launch fairings. (Photo: 45th Space Wing Public Affairs)
Faster handover from contractor
SV04 also sets a new standard for handover from contractor Lockheed Martin’s launch team to operational acceptance, setting the satellite healthy to the global user community approximately 30 days post launch, according to Dart. “Moving forward with future GPS III launches, the timeline between launch and the satellite being set healthy will be at a minimum,” he said.
SV04 was launched on a SpaceX Falcon 9 Block 5 vehicle on Nov. 5. The Air Force has been flying 31 operational satellites for years to ensure the United States’ commitment to have 24 operational GPS satellites available 95% of the time.
GPS III SV04 joins this operational constellation of 31 GPS satellites orbiting in medium-Earth orbit. The system delivers improved accuracy, advanced anti-jam capabilities and increased resiliency for the GPS III constellation.
Lockheed Martin’s production proceeds
The Space Force declared GPS III SV05 “Available for Launch” in May. The satellite is waiting to be called up”for launch.
GPS III SV06, 07 and 08 are now fully assembled and going through environmental testing at Lockheed Martin’s GPS III Processing Facility in Denver.
GPS III SV09 and 10 are in component build up.
Lockheed Martin is also under contract for up to 22 additional GPS III Follow On (GPS IIIF) satellites, which introduce further technology and capabilities. In May, Lockheed Martin completed its Critical Design Review for the GPS IIIF and in July, the Space Force declared that GPS IIIF fulfilled “Milestone C,” which means the production phase of the program has officially begun.
“The operational acceptance of GPS III SV04 is another significant milestone for GPS Modernization, delivering critical new capabilities to our Military and Civil Users. We now have a total of 23 M-code spacecraft for our Warfighters. For our billions of civil users, it brings the count up to 23 L2C spacecraft and 16 L5 spacecraft,” said Col. Ryan Colburn, director of the SMC Portfolio Architect Office’s Spectrum Warfare Division. “For professional users with existing dual-frequency operations, L2C enables faster signal acquisition, enhanced reliability, and greater operating range. L5 is broadcast in a radio band reserved exclusively for aviation safety services. It features higher power, greater bandwidth, and an advanced signal design. Future aircraft will use L5 in combination with L1 C/A to improve accuracy (via ionospheric correction) and robustness (via signal redundancy). The operational acceptance of this spacecraft is another display of the fantastic teamwork across SMC’s Corps, Space Delta 8, National Geospatial-Intelligence Agency, Department of Transportation, Federal Aviation Administration, our industry partners and many others who work together to make these missions possible.”
GPS satellites provide position, navigation, and timing to more than four billion military and civilian users worldwide.
A Falcon 9 carrying GPS III SV04 lifts off from Cape Canaveral Air Force Station, Florida, Nov 5. (Photo: SpaceX via USAF)
The United States Space Force’s Space and Missile Systems Center on July 27 completed the military code (M-code) Early Use (MCEU) hardware and software upgrade to the GPS Operational Control System (OCS).
Completion of the upgrade is a major step toward Operational Acceptance of the long-awaited GPS M-code.
Photo: U.S. Air Force photo/Dennis Rogers
The encrypted M-code signal enhances anti-jamming and anti-spoofing capabilities for the warfighter. M-code signals are currently available on all 22 GPS Block IIR-M, IIF and III space vehicles currently on orbit.
The installs were completed at the Master Control Station at Schriever Air Force Base, Colorado, and Alternate Master Control Stations at Vandenberg Air Force Base, California.
The MCEU upgrade allows the OCS Architecture Evolution Plan to task, upload and monitor M-code within the GPS constellation, as well as support testing and fielding of modernized user equipment.
Operational Acceptance Set for November. MCEU will be in a trial period before Operational Acceptance in November. Once Operational Acceptance is granted, upcoming Military Ground User Equipment (MGUE) will be able to leverage the M-code signal-in-space to provide more secure position, navigation and timing (PNT) to warfighters.
“Working closely with Lockheed Martin and our other mission partners — with the common national goal of providing enhanced PNT signal security and safety always in sharp focus — means we’re able to deliver the right mission capability faster to our warfighters,” said Lt. Col. Steven A. Nielson, program manager of the MCEU project.
MCEU serves as a gap-filler for M-code operations before the entire GPS constellation’s operational transition to the Next Generation Operational Control System Block 1, which is now in development.
A key to enabling M-code is a new software-defined receiver being installed at all six Space Force Monitoring Sites. The M-code Monitor Station Technology Improvement and Capability receiver uses commercial, off-the-shelf hardware to cost-effectively receive and process M-code signals, enabling OCS operators to monitor the signals.
