It’s not unusual for the NDAA to feature a number of different directives and requests for the DoD and the disparate military services. They may be asked to research ways to increase readiness. Or they may be directed to identify new ways to deliver mental or physical wellness services to enlisted service members.

But this year’s NDAA had a very specific and somewhat unusual request related to satellite communications:

“Not later than 180 days after the date of the enactment of this Act, the Secretary of Defense, in consultation with the Secretaries of the military departments and the heads of the Defense Agencies, shall submit to the congressional defense committees a report on current commercial satellite communication initiatives, including with respect to new non-geostationary orbit satellite technologies that the Department of Defense has employed to increase satellite communication throughput to existing platforms of the military departments currently constrained by legacy capabilities.”

What are non-geostationary orbit (NGSO) commercial satellite services? They’re effectively any satellite communications service that are delivered via a satellite constellation that exists in an orbit closer to the Earth than geostationary orbit (GEO). And why is Congress so interested in NGSO satellite communications and its use by the DoD? There are a few good reasons for that.

The case for NGSO satellite
To truly oversimplify the operation of satellite networks, satellite communications function by a signal being sent into space, where it’s relayed by a satellite in orbit back to a physical location on Earth. The further the satellite is from Earth, the further that signal needs to travel – both in its initial journey to the satellite, and then in its return journey back to the Earth. The time that it takes to complete that journey is experienced by users as latency.

“Assurance is important when tools like satellite connectivity are mission-critical. The military needs to understand the risk that their satellite services face both on Earth and in space, and choose the solutions that will be available when they need them.”

By putting satellites in orbits closer to the Earth than GEO, commercial satellite providers have dramatically reduced the latency of satellite communications. When coupled with the next generation of high throughput satellite technologies, these satellites closer to Earth are capable of delivering incredibly high throughputs with incredibly low latency. This effectively results in a user experience not unlike a terrestrial fiberoptic network. But, unlike terrestrial networks, these NGSO satellite solutions are available practically anywhere on Earth – even in the most austere and geographically isolated of locations.

With the potential to deliver fiber-like connectivity to anywhere – from a military forward operating base in the middle of the desert, to a naval vessel afloat in the middle of the Pacific – it’s easy to see why Congress would be interested in the DoD investing in NGSO commercial satellite services. The use cases are almost limitless – ranging from traditional military operations, like intelligence, surveillance, and reconnaissance (ISR), to the downright futurist, like delivering telemedicine services via video teleconference.

But “NGSO” is a relatively broad term that includes a number of different satellite constellations in orbits outside of GEO. There is a veritable alphabet soup of other orbits, including Medium Earth Orbit (MEO) and Lower Earth Orbit (LEO) where commercial SATCOM providers are operating constellations. As a result, there are a number of disparate satellite operators to choose from, and a wide variety of services to choose between.

Which NGSO satellite solution is the right one?
While NGSO satellite can deliver the connectivity that the military needs in an age where practically every platform and weapons system is network and software-enabled, there could be some confusion as to which NGSO satellite service meets the needs of the DoD. And that choice will only get harder, as a number of new satellite services are set to launch in the next half-decade.

Here are three considerations that DoD decision-makers should keep in mind as they evaluate NGSO satellite services and solutions to ensure they get one that will meet mission requirements:

Is it secure?
When Internet and other critical communications services were denied at the beginning of the Russian invasion of Ukraine, a LEO satellite solution was rapidly made available to restore communications. Seemingly within hours, that LEO satellite service was degraded and denied, once again leaving the people of Ukraine without access to critical comms.

The provider of those services was heralded for its ability to quickly push updates to terminals and get that satellite service back online. But is that really what the military wants and needs?

As we discussed, today’s weapons systems and platforms work best when network enabled. The advanced AR, IoT, and other technology systems that the DoD is investing in for use on the battlefield are ultimately useless if they’re not connected. If today’s warfighters are trained on these systems, and are more effective with these capabilities, the military can’t have them denied – even if only temporarily.

“With the potential to deliver fiber-like connectivity to anywhere – from a military forward operating base in the middle of the desert, to a naval vessel afloat in the middle of the Pacific – it’s easy to see why Congress would be interested in the DoD investing in NGSO commercial satellite services.”

With the security of satellite communications so essential, the military should be looking for NGSO satellite solutions that have been cyber-hardened against the most pressing threats identified by the Office of Director of National Intelligence Space Threat Assessment. They should be looking for solutions that complicate an adversary’s targeting calculus by having no permanent paired linkage between U/L and D/L frequencies and polarities.

They should be looking for solutions that can quickly and easily adjust should attempts be made to jam or deny satellite service. For example, can a satellite solution rapidly adjust frequencies, polarities, power levels, bandwidth, handover timing, and beam location to avoid interference? And is there a GEO system available that can provide wide-area satellite capacity should the NGSO solution be denied?

Is it assured?
Not all of the threats to satellites are cyber and jamming threats. Sometimes there are threats to satellite communications that originate in orbit with the satellites. This includes the threat of interference and collision with other satellites in their orbit.

While GEO has traditionally been the home to most of the communications satellites in use throughout history, LEO is not exactly greenfield real estate. As of September 2021, there were 7,500 satellites in LEO. Compare that to the more than 550 satellites in GEO, and the approximately 140 satellites in MEO. Suddenly that orbit starts to sound incredibly congested. And that’s only going to get worse.

As smallsats and cubesats continue to become less expensive to purchase, and cheaper to launch, the number of them in LEO will increase exponentially. LEO is also considered by many to be the forerunner for the next generation of positioning, navigation, and timing (PNT) satellites.

But, most importantly, since LEO satellites have an incredibly small Earth view, many satellites are needed in a LEO constellation to blanket the Earth in coverage. With numerous companies in a race to build LEO constellations with global coverage, LEO could see the addition of hundreds of new communications satellites in orbit just in the next few years.

Assurance is important when tools like satellite connectivity are mission-critical. The military needs to understand the risk that their satellite services face both on Earth and in space, and choose the solutions that will be available when they need them.

How much throughput is needed?
Satellite communications from GEO will play a role for the military into the future. It’s the most effective solution for covering a broad area in connectivity. NGSO satellite solutions will most likely play a more specialized role – providing incredibly high throughputs with miniscule latency for bandwidth-hungry modern IT solutions in the field.

“The advanced AR, IoT and other technology systems that the DoD is investing in for use in the battlefield are ultimately useless if they’re not connected. If today’s warfighters are trained on these systems, and are more effective with these capabilities, the military can’t have them denied – even if only temporarily.”

If the military needs to stream multiple, HD-quality ISR video streams from unmanned aerial vehicles (UAVs) or F-35s back to the military decision-makers that need the intelligence to make informed decisions, NGSO satellite is essential. Suppose the military wants to enable fiber-like connectivity for telehealth, or morale, welfare, and recreation (MWR) capabilities onboard a Naval vessel in the middle of the Pacific Ocean. In that case, NGSO satellite is the correct choice.

But different NGSO satellite solutions offer different levels of capacity and bandwidth. If a large amount of bandwidth is needed, the DoD should be looking for a solution that can deliver multiple GBPS to each individual terminal – which should be more than enough capacity for even the most bandwidth-hungry of applications.

Considering the importance of fiber-like connectivity for the next generation of military platforms and weapons systems, it’s easy to understand why Congress specifically asked for a report on the military’s use of NGSO commercial satellite services in the most recent NDAA. But, if the DoD is going to begin to increase its reliance on NGSO solutions, it needs to ensure it’s choosing the right offering for its requirements. Security, assurance, and throughputs are just three of the many considerations they should keep in mind when evaluating solutions, but they’re quite possibly three of the most essential.

To learn more about how NGSO satellite services from MEO can deliver advanced capabilities to the warfighter, click HERE to download a complimentary copy of the whitepaper, “A New Era of Connectivity.”

Featured image: U.S. Marine Corps Cpl. Cameron J. Rider establishes satellite communication with the combat operations center. (U.S. Marine Corps photo by Pfc. Ulises Salgado). The appearance of U.S. Department of Defense (DoD) visual information does not imply or constitute DoD endorsement.

The post 3 Considerations for Choosing the Best NGSO Satellite Solution appeared first on SES Space and Defense.

If recent events in Eastern Europe have shown us anything, it’s that there really was cause for concern among military and satellite industry thought leaders. Satellite networks and communications have been an early target for adversaries as a way to deny mission-critical communications and capabilities. And with modern militaries relying heavily on network and software-enabled platforms, those satellite networks need to be resilient, because they’re now mission-critical.

One of the best ways to make satellite communications more assured is to enable the military to quickly and seamlessly move their signals to overcome the adversary’s attempts to deny them. If signals can be switched between commercial satellite networks and military satellite networks, the adversary’s targeting calculus becomes more difficult, and the military can more rapidly restore communications that were degraded or denied.

But even better would be the ability to seamlessly move signals from MILSATCOM assets in geostationary orbit (GEO) to commercial satellites in any orbit – including GEO, medium earth orbit (MEO), and low earth orbit (LEO). Not only would this make the targeting of satellite networks nearly impossible for the adversary, but it would also give the military access to an ecosystem of thousands of satellites with which to operate.

Interoperability between terminals and terrestrial networks has long been the stumbling block to enabling this kind of seamless switching between satellites. But recent tests being conducted for the U.S. Department of Defense (DoD) have illustrated that the obstacle of interoperability could soon be eliminated.

In December of last year, SES Space and Defense announced that it worked in close cooperation with Lite Coms to update the legacy U.S. Army Phoenix Terminal to be MEO capable for the U.S. Army. The upgraded terminal could operate with traditional commercial and military GEO satellites, as well as with commercial Medium Earth Orbit (MEO) constellations.

To learn more about this test and what it means for the U.S. Army, we sat down with the President and CEO of Lite Coms, Robert Jacobson.

Government Satellite Report (GSR): Can you tell our readers a bit about Lite Coms and its solutions? What solutions does the company design and manufacture? Who are they intended for?

Robert Jacobson: Lite Coms LLC is a three-year-old company in Victor, NY, comprised of a team of engineers, operations professionals, and programs professionals that have worked together for more than 20 years, building and delivering more than 11,000 VSAT terminals to defense customers in the U.S. and around the globe.

We create the most feature-rich and highest-performing products in the market. Our parabolic Very Small Aperture Terminals (VSAT) and Electronically Steerable Array (ESA) flat panel terminals are the most capable products available to the U.S. military and its coalition partners.

In the past three years, we have introduced more than a dozen products – each one more capable and more advanced than anything our competitors have on the market.  Military customers seek us out because of the performance of our product, our dedication to customer support, and our high attention to detail.

GSR: Why are terminals that are rugged, light, and easy to use essential for today’s military?

Robert Jacobson: The increase in advance technology on the battlefield can be taxing on an operator. And we don’t want to add to that stress. That’s why we believe the focus of the soldier, sailor, airman, or marine should not be on how to make their terminal function.

We are committed to using the latest in technology and industry standards to make their job easier through software, automation, miniaturization, and advanced packaging technologies for survivability. And we work to balance that with low size, weight, and power requirements (SWaP) to minimize the impact on the warfighter.

“SES and Lite Coms conducted testing in support of the U.S. Army…with the Phoenix E terminal delivering communications via the SES O3b MEO satellite constellation…The results were excellent. In fact, we became the de facto primary means of communications when other legacy hardware and new LEO-only systems were having difficulties.” – Robert Jacobson

As advanced technologies increasingly make their way into the battlefield and become critical to virtually every military mission, it’s essential that terminals can be operated by untrained users, and that they can be stored and transported in a rucksack instead of multiple transit cases.

GSR: Lite Comms recently worked with SES to make its Phoenix E terminal work with MEO. Why is MEO satellite connectivity desirable to the military? What advanced capabilities can MEO enable?

Robert Jacobson: We believe the Phoenix E MEO certification is a major milestone for the satellite communications community. This is the first time there is a WGS-certified and MEO-certified terminal available to the DOD. This also marks the first time that a low PIM, multi-carrier X-band terminal is available to them, as well.

The data rates offered through the MEO enhancement are truly game-changing. The Phoenix E on WGS has been tested to deliver data rates of 50 Mbps. The O3B network from SES will support data rates of up to 600Mbps on the same Phoenix E terminal.

GSR: Can the Phoenix terminals work with both GEO and MEO? How can these terminals enable multi-domain operations?

Robert Jacobson: We are striving to ensure all Lite Coms terminals are “Constellation Agnostic.” We believe that allowing the Expeditionary Signal Battalion-Enhanced to have single terminal – like Phoenix E – that can be used with constellations in both MEO and GEO brings a whole new paradigm of mission planning and options to our warfighter.

“We believe the Phoenix E MEO certification is a major milestone…This is the first time there is a WGS-certified and MEO-certified terminal available to the DOD. This also marks the first time that a low PIM, multi-carrier X-band terminal is available to them, as well.” – Robert Jacobson

Depending on the mission, they can use standard WGS on X-band or military Ka-band, or commercial Ku-band, traditional C-band, or the game-changing MEO O3b from SES.

GSR: Why would the military be interested in accessing satellite communications from different orbits utilizing the same terminals and hardware? What benefits could this deliver?

Robert Jacobson: Tailoring your communications to meet your mission requirements is of critical importance to the mission planners. Having the ability to expand your data throughput from 50Mbps to 600Mbps using the same organic products is of great interest to the military leadership.

Also, cost savings in hardware and in transport is staggering when you get data rates like this through a terminal typically capable of 50Mbps. The days of needing to bring 3.9 meter or larger terminals will be a thing of the past. We will drastically reduce the amount of equipment being transported via aircraft with this technology.

GSR: SES Space and Defense recently announced that they were doing some multiple orbit testing for the U.S. Army. How is Lite Coms involved in these tests? What do the tests entail, and what is the Army looking to determine with these tests?

Robert Jacobson: Last fall, SES and Lite Coms conducted testing in support of the U.S. Army. The testing took place over a number of months, with the Phoenix E terminal delivering communications via the SES O3b MEO satellite constellation for Army users in Fort Lewis and Yuma. The results were excellent.  We tracked the MEO satellites consistently and had no failures or breaks in communication for the duration of the exercise.

“The increase in advanced technology on the battlefield can be taxing on an operator. And we don’t want to add to that stress.” – Robert Jacobson

In fact, we became the de facto primary means of communications when other legacy hardware and new LEO-only systems were having difficulties. Our new Phoenix E terminals delivered resilient, high-throughput communications, and proved that MEO upgrades to the Phoenix are a worthwhile investment for the U.S. Army.

Lite Coms is very excited to continue working with SES and the U.S. Department of Defense to field constellation agnostic solutions for our users now and into the future.

To learn more about the recent testing conducted by SES Space and Defense and Lite Coms on behalf of the U.S. Army, click HERE.

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Since the Viasat attack, commercial satellite operators across the globe have been on high alert for potential cyberattacks and breaches that could potentially compromise or disable their critical systems. In fact, the Viasat attack led President Biden to issue an official statement imploring the commercial industry to prepare for what may come next.

“Most of America’s critical infrastructure is owned and operated by the private sector and critical infrastructure owners and operators must accelerate efforts to lock their digital doors,” read the President’s statement. “If you have not already done so, I urge our private sector partners to harden your cyber defenses immediately.”

During last month’s SATELLITE 2022 conference, the Viasat incident was top-of-mind as conversations about the attack buzzed throughout the halls and session rooms of the Walter E. Washington Convention Center.

In one SATELLITE session entitled, “Securing Commercial Systems for Government Use,” the Viasat cyberattack set the table for the panel discussion, as experts from SES Space and Defense, Inmarsat Government, Eutelsat, the Office of the Director of National Intelligence (ODNI), and the U.S. Army examined how both the U.S. government and the commercial satellite industry can work together to bolster the security of our nation’s commercial systems in space.

Here are a couple key takeaways on securing commercial satellite systems from the adversary and assuring the resiliency of satellite services and connectivity for the future battlefield:

GEO, MEO, LEO…and switching in between

It is imperative that the U.S. military have access to the satellite technologies and services that facilitate assured communications for the warfighter. But just as important as providing those services is the security, resiliency, and speed of those critical systems.

The importance of high-throughput and low latency satellite services provided by Medium-Earth Orbit (MEO) and Low-Earth Orbit (LEO) satellites was a major discussion point during the session. U.S. Army Maj. Gen. Robert Collins shared with the panel that the Army’s focus on its next capability set will be expanding its capacity for MEO and LEO connectivity at the edge, pointing to the orbits’ proven track records on delivering high-throughput, low latency connectivity.

He continued to say how PACE (Primary, Alternate, Contingent, and Emergency) communications plans on-orbit could also strengthen resiliency of critical space systems. “I think this SATCOM layer just adds an additional ability for us to do that,” said Maj. Gen. Collins. “We want to leverage it…This is certainly something that we can tap into, and really thickens our communications structure.”

Pete Hoene, President and CEO of SES Space and Defense, also agreed that connectivity provided by MEO satellites will provide the warfighter with high-speed connection that they require on the ground. Referring to the SES O3b MEO satellite service, Hoene explained that it can deliver, “fiber-like latency that is very high-throughput,” and that the next-generation constellation – O3b mPOWER – will build upon those capabilities even further.

Though the latency and throughput provided by MEO satellites solves the issue for warfighters on the ground, they do not necessarily solve security issues on-orbit. But in a recent, successful test by SES and Hughes, the satellite providers were able to demonstrate their ability to switch signals across satellites in Geostationary (GEO) and MEO.

This new signal-switching capability solves a massive amount of on-orbit security issues. By being able to switch signals across orbits, the U.S. can assure the resiliency and security of the satellite systems and services that are available to the military.

Deploying a rapid beam switching capability on an integrated COMSATCOM and MILSATCOM architecture can enable the U.S. military to seamlessly roll-over applications and systems to other satellites inter- or intra-orbit, stopping adversaries in their tracks if they attempt to jam or execute kinetic attacks on commercial satellites leveraged by the U.S. government.

Agile Acquisition

Another key takeaway from the session was the important role agile acquisition of satellite capabilities and services play in securing commercial space assets that the military utilizes. Implementing an agile framework would facilitate faster military adoption of commercial capabilities that are modified and tailored specifically for the warfighter.

According to Maj. Gen. Collins, implementing an agile acquisition framework will allow the military to adopt new commercial capabilities quicker, enabling operators to be ahead of the adversary, which in turn would make space systems more secure. “We can bring in these technologies faster, and we can keep pace with the threat,” said Maj. Gen. Collins.

For Hoene, stronger partnerships between industry and the U.S. government procurement agencies are needed in order for the commercial industry to properly invest in the new capabilities that the U.S. government wants and needs.

To learn more about the recent cross-orbit signal test by SES and Hughes, click HERE.

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