GPS World

Tag: on-orbit testing

  • Third GPS III powers itself into orbit

    Third GPS III powers itself into orbit

    Third Lockheed Martin-Built GPS III satellite climbs to orbit on its own power

    GPS III SV03 increases number of secure military code (M-code) enabled satellites in GPS constellation to 22 total. 

    After a successful launch on June 30, the third Lockheed Martin-built GPS III satellite headed to orbit under its own propulsion. The satellite separated from its rocket and used onboard power to climb to its operational orbit, approximately 12,550 miles above the Earth.

    GPS III Space Vehicle 03 is responding to commands from U.S. Space Force and Lockheed Martin engineers in the Launch & Checkout Center at the company’s Denver facility. There, they declared rocket booster separation and satellite control about 90 minutes after the satellite’s June 30 launch aboard a SpaceX Falcon 9 rocket from Cape Canaveral Air Force Station, Florida.

    “In the coming days, GPS III SV03’s onboard liquid apogee engines will continue to propel the satellite towards its operational orbit,” said Tonya Ladwig, Lockheed Martin’s acting vice president for Navigation Systems. “Once it arrives, we’ll send the satellite commands to deploy its solar arrays and antennas, and prepare the satellite for handover to Space Operations Command.”

    After on-orbit testing, GPS III SV03 is expected to join the GPS constellation — including GPS III SV01 and SV02, which were declared operational in January and April — in providing positioning, navigation and timing signals for more than four billion military, civil and commercial users.

    Lockheed Martin designed GPS III to help the Space Force modernize the GPS constellation with new technology and capabilities. The new GPS IIIs provide three times better accuracy and up to eight times improved anti-jamming capabilities over any previous GPS satellite. They also offer a new L1C civil signal, which is compatible with other international global navigation satellite systems, like Europe’s Galileo, to improve civilian user connectivity.

    GPS III also continues the Space Force’s plan to field M-code, a more-secure, harder-to-jam and spoof GPS signal for our military forces. GPS III SV03 brings the number of M-code enabled satellites to 22 in the 31-satellite GPS constellation.

    “As a nation, we use GPS signals every day — they time-stamp all our financial transactions, they make aviation safe, they make precision farming possible, and so much more,” added Ladwig. “GPS has become a critical part of our national infrastructure. In fact, the U.S. economic benefit of GPS is estimated to be over $300 billion per year and $1.4 trillion since its inception. Continued investment in modernizing GPS — updating technology, improving its capabilities — is well worth it.”

    Screenshot: SpaceX live feed of launch
    Screenshot: SpaceX live feed of launch
  • Second GPS III in orbit, responding to commands

    Second GPS III in orbit, responding to commands

    A ULA Delta IV rocket carrying GPS III SV02 lifts off from Space Launch Complex-37 on Aug. 22. (Photo: ULA)
    A ULA Delta IV rocket carrying GPS III SV02 lifts off from Space Launch Complex-37 on Aug. 22. (Photo: ULA)

    The U.S. Air Force’s second next-generation GPS III satellite, built by Lockheed Martin, is responding to commands, under control and now using its own internal propulsion system to get to orbit following its successful Aug. 22 launch.

    At 11:01 a.m. ET, Air Force and Lockheed Martin engineers at Lockheed Martin’s Launch & Checkout Facility near Denver declared they had full control of GPS III Space Vehicle 02 shortly after the satellite’s separation from its United Launch Alliance (ULA) Delta IV rocket booster. The satellite, nicknamed “Magellan” by the Air Force, began its rocket ride to space with a 09:06 a.m. ET launch from Cape Canaveral Air Force Station.

    GPS III SV02 is now climbing towards its operational orbit about 12,550 miles above the earth under the power of its own Liquid Apogee engines. Engineers at Lockheed Martin Space’s Waterton, Colorado facility are commanding the satellite using elements of the GPS Next Generation Operational Control System (OCX) Block 0.

    “GPS III SV02 is receiving and responding to commands just as planned. In the days ahead, we’ll finish orbit raising to our operational slot and then send the satellite commands telling it to deploy its solar arrays and antennas,” said Johnathon Caldwell, Lockheed Martin Space’s Vice President for Navigation Systems. “Once we are set up, we’ll begin on-orbit checkout and tests, including extensive signals testing with our advanced navigation payload.”

    The payload is provided by L3Harris. The first GPS III satellite launched in December 2018 and its navigation payload has performed beyond expectations on-orbit during pre-operational testing, according to L3Harris.

    GPS III SV02 is the second GPS III satellite designed and built by Lockheed Martin to help the Air Force modernize today’s Global Positioning System (GPS) constellation with new technology and capabilities. GPS III satellites provide 3x greater accuracy and up to 8x improved anti-jamming capabilities. GPS III also provides a new L1C civil signal, compatible with other international global navigation satellite systems, like Europe’s Galileo.

    The First GPS III Satellite Completes On-Orbit Testing

    Image: ULA
    Image: ULA

    GPS III SV02 will be the second GPS III satellite in orbit and the second GPS III satellite now being commanded from Lockheed Martin Space’s facility.

    On Dec. 23, 2018, the Air Force launched the first GPS III satellite. Nicknamed “Vespucci,” GPS III SV01 underwent months of checkout and thorough testing of its advanced, new navigation payload provided by Harris Corporation.

    “GPS III SV01’s performance exceeded expectations during testing,” Caldwell said. “On July 12, we officially completed all On Orbit Check Out & Test activities. We are excited to see this satellite move to the next phase and perform in an operational environment.”

    That’s expected to happen later this year once the first satellite is handed over to the Air Force.

    Thinking Ahead From the Ground Up

    In preparation for this handover, in 2016, the Air Force awarded Lockheed Martin the GPS III Contingency Operations (COps) contract to upgrade its current GPS ground control system – the Operational Control Segment (OCS) – to be able to fly today’s 31-satellite constellation, as well as the new, more-powerful GPS III satellites, until OCX Block 1, still in development, is delivered.

    Lockheed Martin delivered the GPS III COps software upgrade in May and it is currently undergoing preparations for installation.

    COps is the latest GPS ground control upgrade project Lockheed Martin has had since it began sustaining the OCS in 2013. In November 2018, the company completed the AEP 7.5 upgrade — the largest architectural change in the system’s 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 through 2025.

    In 2020, the OCS is expected to receive the M-Code Early Use (MCEU) upgrade, which will allow control of M-Code, an advanced, new signal designed to improve anti-jamming and anti-spoofing, as well as to increase secure access to military GPS signals for U.S. and allied armed forces.

    With GPS III SV01 and SV02 now on orbit, GPS III satellites continue to roll off the production line at Lockheed Martin’s advanced $128-million GPS III Processing Facility near Denver. On May 27, the Air Force declared the GPS III SV03 Available for Launch (AFL) and had the company place it into storage waiting for a launch date. GPS III SV04-08 are now in various stages of assembly and test.

    In all, Lockheed Martin is under contract to build up to 32 next-generation GPS III/IIIF satellites for the Air Force. Additional IIIF capabilities will begin being added at the 11th satellite. These will include a fully digital navigation payload, a Regional Military Protection capability, an accuracy-enhancing laser retroreflector array, and a Search & Rescue payload.