26 March 2019

What if satellite communication was as simple as roaming cell service

By: Adam Stone

Cpl. Nicholas L. Dye (left), satellite transportable terminal operator, Headquarters and Headquarters Company, 1st Battalion, 66th Armor Regiment, 3rd Armored Brigade Combat Team, 4th Infantry Division, and Spc. Emmanuel L. Tate, signal systems support specialist, HHC, 1st Bn., 66th Armor Regiment, 3rd ABCT, 4th Inf. Div., work together to position their Satellite Transportable Terminal to ensure the strongest signal at Camp Buehring, Kuwait, Feb. 28, 2015. Tate and Dye, were validating their communication operating systems for mobile training exercises. (U.S. Army photo by Spc. Gregory T. Summers, 3rd ABCT, 4th Inf. Div., Public Affairs)

The satellites that the U.S. Department of Defense relies on for communications often each have their own ground control systems that are designed to work with specific families spacecraft. But as space becomes more a more contested, with enemies looking to undermine the United States’ information advantage, that set up can lead to problems on the battlefield.

“Today if they lose communications because of adversarial jamming, they may have to cancel their mission," said Frank Backes, senior vice president of federal satellite Solutions at national security solutions provider Kratos. “If they depend on satellite communications to do their mission, they will be basically stuck.”

Under a program sponsored by the Air Force’s Space and Missile Systems Center, subsidiary Kratos RT Logic recently demonstrated a potential fix. The company unveiled a solution that would allow users to roam among multiple satellites and systems in much the same way the cellphones roam when they are deprived of a signal.

The prototype, known as Enterprise Management and Control (M&C), aims to make defense communications more robust by offering diverse pathways and enhanced bandwidth efficiency.

Adversarial landscape

The Air Force program is part of an effort to make military satellite communications more flexible. For example, Hughes Defense and Intelligence Systems also demonstrated a concept to the Air Force that focused on creating a global, open architecture system that connects to communications satellites in geosynchronous orbit, medium earth orbit and low earth orbit.

The need for roaming satellite communication connectivity comes from an evolving military landscape.

“When the present satellite communications infrastructure was set up, military communications weren’t operating in a hostile communications environment. Today that has fundamentally changed,” Backes said. “When Army or Navy is operating in theater, they run into jamming as well as unintentional interference.”
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When that happens, it is possible to reconfigure the network, to switch to another satellite, but it can literally take weeks or even months to make the change. The new initiative seeks to allow soldiers to recover comms on the fly, without having to swap out equipment or reconfigure their connections.

Kratos demonstrated the capability using existing legacy terminals. “It’s primarily a software modification,” Backes said. “A lot of the solutions that have been considered would have required changing out all the ground terminals. We worked directly with DISA and with Space and Missile Systems Center in Los Angeles so that we would not require the replacement of those legacy systems. That makes it dramatically less expensive.”

Government has long recognized the need for such a capability. “Satellites, ground control systems, and user terminals in most of the Defense Department’s major space system acquisitions are not optimally aligned, leading to underutilized satellites and limited capability provided to the war fighter,” the GAO noted in a 2009 report. The issue has been a long-running theme for the Congressional watchdog since then.

“When capabilities are delayed because of lack of alignment between satellite and ground control systems or user terminals, the war fighter may develop short-term solutions, often at diminished capability and added cost,” GAO reported.

The emerging system is designed to work with standard commercial communications satellites as well as with the military’s Wideband Global SATCOM (WGS) constellation. It aims to achieve a number of specific ends including:

• Giving operators rapid, automated access to multiple satellites and satellite networks, from multiple service providers;

• Allowing control of multiple modem types and software versions from within a single terminal;

• Enabling terminal reconfiguration to support diverse SATCOM architectures, including Time Division Multiple Access (TDMA) and Frequency Division Multiple Access (FDMA) networks.

Diagnostic capability

The emerging system aims to do more than just restore comms when the link fizzles out. A diagnostic capability helps the system to understand why the network has gone down, which in turn enables the roaming function to take the next needed step.

“You need to be able to make the determination not just when to roam but also why,” Backes said. By understanding the cause of a network failure, “the system can then make a determination as to what satellite system might be a better choice under those circumstances, so that it would not be interfered with.”

Engineers took an open-architecture approach to designing the new interface. In addition to allowing roaming among disparate systems, this approach also could enable a rapid acquisition path, should battlefield communication needs change rapidly. “That frees the government to lease from multiple commercial companies, to set up new leases and to immediately start using those out in the field,” Backes said. “It allows the government to very quickly adjust and deploy.”

Looking ahead, Kratos executives say they hope to see a 2019 contract award for additional testing to prove operational capability. As part of that effort, engineers will push for less human intervention in the roaming capability.

“With thousands of terminals out in the field, the goal is to have it make the move on its own. The next phase of proving out this system would be to show that capacity for an automated change. That’s what make it true roaming. You don’t tell it when to switch networks. It just does it on its own,” Backes said.

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