August 5, 2024 | International, C4ISR, Security
The Loper Bright Decision: How it Impacts Cybersecurity Law
Supreme Court's Loper Bright ruling overturns 40 years of Chevron deference, altering the cybersecurity regulatory landscape
September 14, 2020 | International, Aerospace, Naval, Land, C4ISR, Security
Inside Project Convergence: How the US Army is preparing for war in the next decade
By: Jen Judson
WASHINGTON — The U.S. Army is in the midst of conducting what Army Futures Command Commander Gen. Mike Murray is calling “this generation's digital Louisiana Maneuvers” in the Arizona desert, as the service aims to bring key technologies together designed to fight across air, land, sea, space and cyber.
The famed Louisiana Maneuvers, a series of mock battles during World War II, were designed to figure out how the United States could use its existing technology to fight in a fundamentally different way against the German military's airplanes, radios and tanks.
“It was a combination of those three technologies and how the Germans put it together to execute what we call Blitzkrieg" that was “fundamentally different” than any of the capabilities the Allied forces, to include the U.S., brought to the battlefield, Murray told Defense News in an exclusive interview.
In 2020, there are three key technologies that when paired together in novel ways can provide a strong advantage against possible conflict with near-peer adversaries, according to Murray: artificial intelligence, autonomy and robotics in the air and on the ground.
“To make those three work in a digital environment, you have to have an underlying robust and resilient network,” Murray said, “and you have to have a data architecture and the data and the talent to put all that together.”
Enter Project Convergence, the Army's weekslong “campaign of learning” to bring together the weapons and capabilities it envisions fighting with in the 2030s and beyond in a seamlessly networked environment.
The capstone event began in the middle of August and will wrap up September 18 amid the global coronavirus pandemic. Murray reported there has been only one isolated case of COVID-19 at Yuma and that person was quickly isolated without the disease spreading.
The effort aims to bring in as many capabilities across the Army's six modernization priorities as possible and put them through maneuvers that service's new Multidomain Operations (MDO) warfighting concept lays out.
The service is particularly focused on three key phases of MDO at Project Convergence:
- Penetrating and neutralizing enemy long-range systems, contesting enemy maneuver forces from operational and strategic distances
- Disintegrating the enemy's anti-access and area denial (A2AD) systems taking out enemy long- and short-range systems while conducting independent maneuver and deception operations
- Exploiting freedom to maneuver to defeat enemy objectives and forces.
“Convergence is one of the tenets,” Murray said. “The ability to converge effects across all five warfighting domains (air, land, sea, cyber and space) and we're really taking that tenant and putting it together in the dirt live and bringing multiple things together... and the key thing is here is being able to act faster than any opponent in the future.”
Murray also discussed Convergence as part of the 2020 Defense News Conference.
Getting the upper hand
To act faster, the Army has moved a system called Firestorm out of a science and technology effort from Picatinny Arsenal's armaments center and into the exercise. Firestorm is being developed as the brain that connects the sensors on the battlefield to the right shooter through the appropriate command and control node, Murray explained.
“I firmly believe on a future battlefield, the commander that can see first, understand first, decide first and the act first will have a distinct advantage and will ultimately win any future battle,” Murray said, “so that's this learning experience year to year.”
While Project Convergence will have surrogate capability this year representing its Future Attack Reconnaissance Aircraft, the Future Long-Range Assault Aircraft, as well as the Extended Range Cannon Artillery system, more and more technologies across the Army's modernization priorities will be brought in in subsequent years.
The Army, this year, is also using available Air-Launched Effects (ALE) as well as a surrogate system called Titan — at Joint Base Lewis McChord in Washington State — that will process targeting information from ground and air autonomous vehicles using artificial intelligence.
Titan is managed by the Army's Multidomain Task Force's Intelligence, Information, Cyber, Electronic Warfare and Space (I2CEWS) battalion. The system will pass targeting information to a fire control element sitting at Yuma.
The service is also experimenting with space sensing capabilities this year and bringing it all together using new network architecture. “The network is a huge piece of this and so we are building out mesh networks, communications between the air in terms of Gray Eagle [unmanned aircraft system] and ALE and [Future Vertical Lift] surrogates to the ground.”
The hope from the first year is to walk away with conclusions about whether technology currently being developed works, Murray said. “Can we actually link multiple sensors and shooters right? In this case, it's not a huge number. It's less than a handful,” he said, “but the ability for Firestorm to figure out the right shooter against the right target is one of the key things we're driving and then can we do this in near-real time.”
During National Training Center rotations, “it takes a while to clear fires,” Murray said. “So what is that order of magnitude we can do this faster, to see faster and really put rounds on target faster.”
Early intel out of Project Convergence is that Firestorm has already shown “great success” and “the ability to put lethal effects on a target much, much, much faster than we do right now in an order of magnitude that is at least 10 times faster,” Murray said, “but we still have a ways to go.”
Spiraling in capability
Project Convergence this year came together quickly, Murray said. The inspiration came from an AI-focused effort through the Army's Next-Generation Combat Vehicle (NGCV) modernization outfit dubbed Project Quarterback, which paired automated target recognition with future combat vehicles.
Brig. Gen. Ross Coffman, who is in charge of the NGCV cross-functional team, discussed what he was doing with Murray over the winter, with the latter saying “It just occurred to me, it should have occurred to me a long time ago. It is so much bigger than that.”
The Army is already wrapping up its plans for Project Convergence in 2021 and setting its sites on what is possible in 2022, according to Murray.
While the Integrated Battle Command System (IBCS), the command and control system for the Army's future air-and-missile defense system, was tied up in Limited User Test this year, the service is looking for a way to integrate that into the effort next year. IBCS will be going through its Initial Operational Test and Evaluation at that time, but Murray said he is hopeful there is a way to bring the integral capability of the system to the event.
Another test of the Precision Strike Munition (PrSM) will also be executed during the event next year. The missile had three successful test shots this calendar year.
And while the exercise this year had roughly 500 people at Yuma this year, most of those are data collectors, Murray said. The exercise represents a platoon-sized operation, but in 2021, Murray said he intends to bring in an operational headquarters element to drive the learning in terms of how “we organize and how we fight the capability in the future.”
Ideally, the Army would involve one of the MDTF units, but due to conflicts in schedule this year it wasn't possible to bring them into the event, so the service is working with U.S. Army Forces Command to incorporate MDTF participation.
Next year will also bring in joint participation. While the Air Force will be present at Project Convergence this year, the Army plans to use the F-35 fighter into the architecture.
Joint participation is critical to developing Joint All-Domain Command and Control (JADC2), which is the joint warfighting doctrine now in development of which MDO as a concept is a part.
“Convergence is our contribution to an all-domain command-and-control,” Murray emphasized, “and it is not in conflict with what the Air Force is doing with JADC2 and the [Air-Battle Management System].”
In 2022, Murray said the plan is to bring coalition partners and so far the United Kingdom has committed to participation and Australia will also likely sign on to attend.
“We've been very open-kimono in terms of the technology that we're bringing and there's been a lot of crosstalk between the three nations,” he added.
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August 6, 2019 | International, Aerospace
Lockheed space exec talks future space endeavors
By: Mike Gruss WASHINGTON — Lockheed Martin is intricately tied to the Pentagon's future space endeavors. The giant defense contractor has deals for the Air Force's next-generation missile warning satellites, it's new batch of GPS satellites and the current generation of protected communication space vehicles. But the national security space community is changing fast. Space is now viewed as a war-fighting domain, a far cry from decades ago. Rick Ambrose heads the company's space division. He spoke with Mike Gruss, editor of Defense News sister publications C4ISRNET and Fifth Domain, about where the Pentagon is headed and how to make sense of the new realities in space. What advantages do you see with the Air Force's new missile warning satellite program over the current Space Based Infrared Program? The Next-Generation Overhead Persistent Infrared Program is, in essence, a whole new design, which is why we're competing for payload. So it's going to have a tremendous new mission capability, built-in resiliency capabilities, much more flexibility. What does that mean, flexibility? We're going to put in some of our smart sat processing that will help with the payload. We'll make sure we can incrementally upgrade, or the Air Force can, over time. If you think about this, SBIRS [the Space Based Infrared Surveillance system] was originally designed back in the '90s. Basically it's a whole modernization of the mission — better performance across the board. We need more continuous coverage; you need better resolutions. You need a better differentiation of the threat. You need to build in the resiliency, plus the modern ability and some of the processing. So how do we upgrade algorithms on the fly? All that's going to be enabled in this design. When we talk about the smart sat part of that, is that something that today you would get an image and then have to process it on the ground? So the savings is you can do it there so you get it faster. Or is there a different advantage? This is always the trade-off. To process everything on the ground, you have to now communicate every piece of data down right away. We still may ultimately want to do that. But what if we can run some processing on the satellite versus the ground? That design's still not perfectly baked in yet, but that's the direction we're going, is to build in some of that. I think of it like adding filters on Instagram. Another way to look at it would be: There are certain things that you'll locally process on your phone not to clog the communications. We can upload patches and software like we do on most satellites. We've been doing this for decades. But now it just gives you more flexibility to do even more things. You know, a lot of times we're flying satellites for 20 years and we keep finding new ways to use them. Let's build that in up front. I would imagine the Air Force is more open to that kind of thinking. Oh, absolutely. Well, because the threat environment has changed, there are go-fast initiatives, [such as Space and Missile Systems Center] SMC 2.0. We love it because things in the past, it would take longer to prosecute changes on. Now with their new push — you know, [the assistant secretary of the Air Force for acquisition, technology and logistics], Dr. [Will] Roper's push for speed and agility — now once we get the program going and get all the designs finalized, then you'll go to a more traditional —you have to prove out the concept and prove out that the system works and then deploy. We do agile develop for them, but they go: “We're going to constantly change.” Well, commercial could get away with that because if suddenly Google goes down, you don't lose lives. These systems protect lives. The men and women that serve, weather systems, even the private citizens. It's serious business. So that's where we'll always be different than some on the commercial side. If you think about timing of the program up front, at the stage we're at [a low-production rate]. Now is where we can do experimentation and try out new designs. With the Space Development Agency, how do you see that integration improving? What happens is the exact opposite of what should happen. Let's say it takes five or six or seven, eight years to get a satellite up. That's an expensive item. We have to move out and let's get the satellite going. Well, nothing ever works that simple. What we're saying is you need to put the end-to-end architecture together. That's why we brought our ground system together with us to help us help the government with this challenge. And then you get faster. And the other side of this, because it's on the ground, you go: “Oh, it's on the ground. We can always fix it.” The hope is with the Space Force, [SMC 2.0] and all this, we can synchronize better. But more importantly, how do we make a lot of technology more common to the space and ground infrastructure? If you're having to develop every element of that from scratch, it's just massive, it's costly. So what can you do? I did a study decades ago because everyone concentrates on the satellite. I said: “Well, what's the ground cost?” I ran our satellites and we've designed them to run 20 years. You go: “OK, what's the infrastructure cost around that?” And when you took a 20-year cycle of the ground and operations and processing, and think about it, every three years or so they're upgrading. Because you have people touch your computers so now they got to upgrade the machines every three or four years. The IT infrastructure and all that. Refurbish all that. The cost of that dwarfed any costs over that time period of the space asset because you paid once. It actually was more expensive than all the satellites and launches combined. We can knock the ground back a little bit by putting artificial intelligence in, ultimately machine learning, more automation, simplifying operations. You mentioned resilience at the satellite level. There's been talk: “Could a satellite evade a missile? Or evade another satellite?” People have a difficult time understanding what resilience at the space level means. If you're thinking of resilience, it's going to come in a couple of flavors. You touched on the first one. First, if you set your architecture up right, it'll inherently give you some resilience and allow you to make some different trades on the satellite level. Then the satellite itself can just be much more robust. So just inherently for mission assurance, the satellites are more robust and we've put redundant systems at higher quality, higher-reliability parts. You can think of it that way. For resiliencies, you well know there's some level of hardening on SBIRS and the Advanced Extremely High Frequency satellite anyway for both environmental as well as man-made events. The best it can do. Think safety systems you've put on your cars. In the past, when there were a few cars on the road, no one really worried about it. I think the first cars didn't even have seat belts. Or you just keep adding features as you learn more things. It's like with cyber, everyone says: “When are we done with cyber?” You're not because it's a journey. Every time you do something, someone else tries to defeat it. Boeing is under contract for the Air Force's next wideband communications satellite. The company is trying to quickly build it. Are you watching that process? We can come up with our ideas, some other people have ideas. The thing that is just fantastic about space right now [is] it's no longer just competition of its traditional players. There are over a thousand new entrants now if you count the numbers. You got large players coming in like Jeff Bezos. You've got traditional competitors, you've got the supply chain forward integrating. Think of a Harris and L3 combination. Those are all competitive surfaces, which makes this industry just damn exciting right now. And it may sound crazy, but that stimulates motivation. It stimulates innovation. It simulates the thinking and those competitive spirits, where it's kind of what this country was founded on, right? So we're always watching that. We've really modernized our production. In the old days everyone would hand-lay down the solar cells. We now have robotics and automation equipment just literally laying those cells down. It's more predictable. It's more ergonomically friendly for my technicians. One cell was like art almost. Now we're trying to say: “OK, we don't want to lose performance, but let's build in the design for producibility, operability, operations [on] Day One so that we can automate it.” So let's say an electronic card, which would take a technician three months to put together, solder, fill and now we run it down the line; in under eight hours, it's done. Is the Air Force OK with that process? I think of this as pretty unforgiving. Well, it still is. You go back six years ago, I think we did a dozen [3D]-printed parts. We did over 14,000 last year. If you go through our space electronic center, we put automation in. The problem for us in space is we have some unique parts and they weren't precise enough. How do you measure it? You know it's very valuable. You know you're taking time out. If anything, you're improving the quality of work life for your employees. There's this discussion that GPS III is the most resilient GPS satellite ever. And at the same time, the Army says: “We should count on it less than we ever have before.” How can both things be true? In GPS III, it's a much higher power. The M-code coming online makes it somewhat more resilient. But you'll still — again, just like cyber — you'll have adversaries still trying to figure out engineering and different things, techniques. If you take your GPS commercial receiver and you're running in the city, you get a lot of bounce off that urban canyon. So it knows like: “What? That dude looks funky. Throw him out.” Then it processes the ones that it thinks are good. That's a form of protecting that environment if you think about it. How will this play out? There's going to be some combination of software and then maybe some other sensors like we've been toying with, some microgravity sensors, which you can then kind of tell the region you're at. And some of the — just the onboard inertial systems — are getting pretty damn good. It's like your self-driving cars. It's going to rely on not just the cameras, but the little radar sensors and some combination of sensors. For [timing], when you're running software and you have all these sensors that are nodes in the network, and they can actually talk to each other, this is maybe a nirvana future state. Then the guesses you make are better informed with more data. There could be a world where GPS is making decisions with 80 percent of data that's coming from GPS satellites, and maybe it's pulling something from some other sources. https://www.c4isrnet.com/industry/2019/08/05/lockheed-space-exec-talks-future-space-endeavors/
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September 14, 2018 | International, C4ISR
U.S. Cyber Command looks to grow its acquisition capacity
By Lauren C. Williams The Defense Department's newest combatant command is nearly a decade old but still doesn't steer its own acquisitions. That could change in fiscal 2019, however, as U.S. Cyber Command staffs up its contracting office and seeks a bigger acquisition budget. "Acquisition authority is limited at the moment. It's capped at $75 million and has a sunset date, currently, of 2021," said Stephen Schanberger, command acquisition executive for U.S. Cyber Command during a panel at the Billington Cybersecurity Summit Sept. 6. "So the command is actively pursuing getting that increased on the ceiling amount as well as the sunset date." Cyber Command has only had acquisition authority for two fiscal years, but Congress extended that authority through 2025 in the fiscal year 2019 National Defense Authorization Act. That advances the authority four years from the original sunset date of 2021. Cyber Command awarded only one contract in fiscal 2017, Schanberger said, partly because it lacked a contract writing system and technical personnel to get things done. Things improved this year with $40 million in contract awards and Schanberger expects to reach the $75 million cap sometime in 2019. "We are really hamstrung at the moment in relying on the current [contracting] vehicles out there from others," he said. "And in some cases we've had to adjust our scope to match up to the contract versus waiting for them to put another whole contract vehicle or task order onto a contract." Schanberger seeks to more than triple Cyber Command's acquisition to $250 million to allow for multi-year contracts. Congressional scrutiny has been the main impediment to securing additional acquisition funds because the command needs to prove its contracting abilities, but Schanberger said increasing staff and getting things right will help. "Congress would like us to show that we actually can use our authority the way it's supposed to be and start to stand on the backbone of what it takes to be a contracting organization," particularly regarding contract types, use other transaction authorities, competitive bids versus sole source, and partnering with small businesses, he said. Schanberger told FCW he wasn't concerned about additional congressional scrutiny surrounding the Defense Department's use of other transaction authorities because "our efforts are nowhere near the big efforts that they're looking for." But overall, Cyber Command's contracting office is growing. Schanberger now leads a team of about five people, including himself, consisting of a contracting officer, specialist, and supporting contractors. He hopes to double the team's capacity by year's end. "We are in our infancy from an acquisition perspective, we are putting down the foundation of the personnel and the skills," he said, with the goal "to be able to activate, put together solicitation packages, plan our contracting strategy for [multiple] years, and be able to effectively implement and put out RFPs on the street without making a mess out it." Schanberger said they are looking at capabilities that can benefit all of the service components, such as analytic development. Cyber Command released a request for proposals for an analytic support program dubbed Rainfire on Sept. 4. "Once we get the skills in place, I think we'll be able to demonstrate to everyone around us that we can execute the authorities we have and grow them responsibly," he said. https://fcw.com/articles/2018/09/13/cybercom-aquisition-williams.aspx