Long-Serving DSCS Satellite Takes Over Role of Linking Antarctic Researchers to the World

DSCS Satelite Takes OVer Role of Linking Antarctic Researchers to the World

A legacy U.S. Air Force communications satellite built by Lockheed Martin enhances Internet access at the South Pole. Photo Courtesy of National Science Foundation

CHRISTCHURCH, New Zealand, Oct. 11, 2016 – Nearly 21 years after its launch, a Lockheed Martin-built satellite within the Defense Satellite Communications System (DSCS) recently turned its attention to a new mission—supporting the National Science Foundation (NSF)’s Amundsen-Scott Station at the South Pole, where communicating with the rest of the world has always been a challenge.

Amundsen-Scott Station’s location at 90 degrees south, right at the South Pole, makes communications with the remote science station difficult. Even for orbiting satellites, the extreme geographic latitude makes maintaining continuous communication links impossible for a station that up to 100 researchers call home. With few other options, periodic connections are still better than none, but the time to upload and download valuable research data and other communications is invaluable.

In June, the U.S. Air Force’s DSCS III B7 satellite took over the role of providing communication and data links between Amundsen-Scott and the U.S. Antarctic Program facility in Christchurch, New Zealand, which serves as the station’s link to the rest of the world. Replacing the NSF’s decommissioning GOES-3 satellite, DSCS III B7 provides the station with Internet access for 3.5 hours a day at speeds of up to 30 megabits per second (MBPS), an upgrade from about 1.5 MBPS they had under GOES.

DSCS III B7 has already begun relaying health and welfare data links to and from the remote facility. In June, the satellite played a key role in relaying telemedicine data leading up to the medical evacuation of two NSF employees in need of additional medical care.  

“The DSCS constellation has been a legacy workhorse for the U.S. military's super-high frequency communications,” said Chris Ayres, director of Operations, Sustainment and Logistics at Lockheed Martin Space Systems. “Now operating past twice its design life, it is gratifying to see DSCS III B7 still delivering value, providing significant return on investment by furthering scientific research and providing potentially life-saving communications with a location that is otherwise unreachable.”

Originally built by Lockheed Martin and launched on July 31, 1995 with a ten year-design life, DSCS III B7 builds on the constellation’s reputation for providing extended service life. Six on-orbit DSCS III satellites remain operational with more than 259 years of combined service life, already providing nearly 120 extra years of mission life.

Lockheed Martin sustains the DSCS constellation, as well as the Advanced Extremely High Frequency (AEHF) system and Milstar blocks I and II, under the Air Force’s Combined Orbital Operations Logistics Sustainment (COOLS) program.

About Lockheed Martin

Headquartered in Bethesda, Maryland, Lockheed Martin is a global security and aerospace company that employs approximately 98,000 people worldwide and is principally engaged in the research, design, development, manufacture, integration and sustainment of advanced technology systems, products and services.