Kendall: Australian Ghost Bat Drone Could Pair With NGAD

Kendall: Australian Ghost Bat Drone Could Pair With NGAD

Aug. 23, 2022 | By Abraham Mahshie

Air Force Secretary Frank Kendall indicated that the Air Force could incorporate the Australian-made Boeing MQ-28 Ghost Bat drone into the Next Generation Air Dominance (NGAD) family of systems, according to media reports. Citing China’s technological superiority and aggressive acts in the region, Kendall also said the U.S. may be willing to cooperate with Australia on long-range strike capability.

“I’m talking to my Australian counterparts in general about the NGAD family of systems and how they might be able to participate,” Kendall said about the Ghost Bat drone, formerly the “Loyal Wingman,” the first aircraft to be made in Australia in a half century.

Kendall told Breaking Defense that the United States and Australia are “having preliminary discussions” about buying the MQ-28 Ghost Bat “as a risk reduction mechanism” for NGAD’s drone capability.

“I think there’s a lot of mutual interest in working together. And we’re going to be sorting out the details over the next few weeks,” Kendall said after meeting with newly minted Royal Australian Air Force chief Air Marshal Robert Chipman on Aug. 22.

Australia and the United States, alongside the United Kingdom, deepened their defense relationship in 2021 when President Joe Biden announced the “AUKUS” partnership to share military technology, beginning with nuclear-powered submarines.

In public comments in Canberra, both Kendall and Chipman described China’s air superiority and aggressive actions, including a dangerous Chinese J-16 fighter intercept that damaged an Australian surveillance P-8 over the South China Sea. During the encounter, the Chinese aircraft ejected aluminum chaff that entered the P-8’s engines and damaged its exterior.

“They are as formidable a strategic opponent as I have seen. We are in what I consider to be a race for military technological superiority with the Chinese,” Kendall said, according to local media.

Chipman affirmed that China’s aggression would not deter his Air Force from flying over international airspace.

In a June 9 interview, U.S. Pacific Air Forces Commander Gen. Kenneth S. Wilsbach told Air Force Magazine that the Chinese encounter with the Australian P-8, and a similar encounter with Canadian aircraft, were dangerous.

“That’s not only unprofessional. It’s definitely dangerous and unsafe,” Wilsbach said at PACAF headquarters at Joint Base Pearl Harbor-Hickam, Hawaii.

“I call on the Chinese Air Force to step up and be professional,” he added. “The Australians and the Canadians, as well as the U.S. were, are, and do fly in international airspace. They have every right to do that in accordance with international law. And the Chinese don’t have the right to damage an aircraft that is operating in accordance with international law.”

But China doesn’t see it that way.

China believes the airspace over the Taiwan Straits to be its sovereign territory in addition to swaths of airspace over the South and East China seas, where it claims waters in territorial disputes with the Philippines and Vietnam.

Kendall’s trip echoes an August two-week trip across Pacific air bases and meetings with allies and partners made by Air Force Chief of Staff Gen. Charles Q. Brown Jr. Kendall’s visit will not include visits to new partners but instead includes stops at Air Force bases in Guam and Alaska and air bases in Australia and Japan.

Kendall said China’s militarization of the South China Sea has implications for Australian national security. China has also signed a basing agreement with the Solomon Islands, east of Sydney, creating a new strategic dilemma for the U.S. ally.

In a September 2021 “2+2 meeting” between the U.S. Secretaries of State and Defense and their Australian counterparts in Washington, D.C., Australian defense minister Peter Dutton responded to a question from Air Force Magazine, saying the U.S. and Australian air forces would have “greater and more frequent engagement.”

In July, B-2s deployed to the Royal Australian Air Force Base Amberley for a bomber task force mission. In Canberra, Kendall signaled that the United States would be willing to cooperate with Australia, should it require an indigent long-range strike capability.

“If I saw you had a requirement for long-range strike [capability], then we’d be willing to have a conversation with [Australia] about that,” Kendall said, according to local media. The comments extended to potential joint development on the long-range B-21 stealth bomber.

“I don’t think that there’s any fundamental limitation on the areas in which we can cooperate,” Kendall added.

Air Force to Expand Synthetic Environment for Mission Rehearsal, Testing, and Training

Air Force to Expand Synthetic Environment for Mission Rehearsal, Testing, and Training

Aug. 23, 2022 | By Abraham Mahshie

Aircraft simulators must evolve to meet the adversary threat, leaders from the 53rd Wing told Air Force Magazine. Once mainly used for initial qualification training, the Air Force is moving toward a paradigm of simulator training known as the “common synthetic environment” that will create non-proprietary, interchangeable training devices and environments for aircrews to train, conduct mission rehearsals, and even test new weapons and other capabilities in a virtual environment.

The development is in the initial stages, with a building constructed to house the Virtual Test and Training Center (VTTC) at the Air Force Warfare Center at Nellis Air Force Base, Nev., and approximately $20 million dollars slated per year through fiscal 2028 for software and new simulators.

The VTTC is expected to be fully operational by 2027, but partnerships with Air Force Material Command and Naval Air Systems Command could advance the timeline, a 53rd Wing public affairs spokesperson said.

Originally slated to begin in fiscal 2024, the Air Force is counting on fiscal 2023 funding to connect the newest platforms to the Joint Simulation Environment, or JSE, a government-owned, non-proprietary modeling and simulation environment.

“They’re already moving legacy devices out of old facilities to make room for new devices that will plug into JSE,” said Lt. Col. David R. Clementi, commander of the 29th Training Systems Squadron at Eglin Air Force Base, Fla.

“What we’re seeing now is a drastic shift in the paradigm of the importance of the synthetic environment, equal to if not in some areas eclipsing the importance of lifelike missions when it comes to mission rehearsal, and some training aspects and test aspects,” he added in a video interview with Air Force Magazine.

The Nellis campus is building out a capability for fourth-generation-plus fighter aircraft from the F-15EX forward to bombers such as the B-21 and intelligence, surveillance, and reconnaissance aircraft such as the Air Force’s newly selected E-7 Wedgetail.

“The synthetic environment has been a huge afterthought,” Clementi said. “When you just talk generically about a common synthetic training environment, we are talking about one environment that is built with the ability to host multiple different devices.”

The VTTC campus at Nellis, under the command of 31st Combat Training Squadron leader Lt. Col. J. Chris Duncan, hosts a variety of simulators that allow pilots and crew to “fly” together in a non-distributed environment, meaning each simulator is located no more than a few thousand feet from each other. The VTTC is also exploring technologies for blending synthetic scenarios with live flying at the Nevada Test and Training Range.

The “vision” is for all of the Air Force’s latest-generation aircraft to have a device that connects to the VTTC campus, running the same software, so the aircraft can train, rehearse missions, and test together, Clementi said.

An Urgent Shift

The urgency of the shift to the synthetic environment has three roots: adversary observation, current range limits, and the need to integrate multiple platforms.

Adversary observation means everything from weapons testing to new tactics, techniques, and procedures (TTPs) can now be seen, particularly by Chinese and Russian satellites passing overhead.

“When you talk about adversary exploitation, I think the unclassified number out there for collection capability is in the minutes that we have a window available to execute without being observed from some sort of collection entity,” said Clementi.

Furthermore, the commander said the Air Force no longer has the technological capability to replicate the sophistication of the adversary threat.

“The [U.S.] aircraft are so sophisticated that they that they know that what is being replicated is not the actual thing,” Clementi said, describing how the F-35 can detect when artificial targets are trying to replicate Russian SA-15 and SA-20 surface-to-air missiles.

The same is true for air targets.

“When you talk a Chinese J-20, we can do our best now with what the 64th Aggressors are standing up, using fifth-gen fighters, using F-35s, to kind of replicate, but it’s still not the same thing,” he said.

Current ranges are also too limited for modern air warfare.

“The standoff that’s required exceeds the capability of the ranges, of the airspace that we have,” Clementi said, describing rehearsals with multiple aircraft and standoff distances in hundreds of miles. “And then, being able to put all of those assets together in one piece of sky is almost impossible.”

Finally, proprietary simulators, each created by the manufacturer of the platform itself, make it expensive and time-consuming to link together multiple platforms and test new threat paradigms.

“Every platform, every device had a different environment,” Clementi explained, giving the example of Lockheed Martin’s F-35 and its simulator.

“So, if you just take one example about an air-to-air threat model, it is built by Lockheed for Lockheed, for that one device,” he said. “Over time, we saw the need to start linking devices together so that they could fly in a synthetic environment.”

Those devices had been connected by the Distributed Mission Operations Center (DMOC), formerly a proprietary system operated by Lockheed Martin. The DMOC hosts the Air Force’s hub for remote combat training exercises, testing, and experimentation. But Clementi said modeling, security, and latency limitations exist for simulators operating at Nellis and Eglin.

“In the last five years, we’ve realized that the requirement has now eclipsed the ability of executing,” Clementi said. “When you pair all of those together, you’re almost left with no choice but to start executing some of this high-end, advanced test, training, and tactics development in the synthetic environment.”

The Air Force Warfare Center has already built some facilities with a desire to incorporate partner and allied nations. Strategic messaging has also begun to get the word out and generate widespread understanding and buy-in.

Clementi said Air Combat Command is even considering re-designating the 29th Training Systems Squadron as a test and evaluation squadron to acknowledge its new role.

“The important part is that the Air Force, ACC, and the Warfare Center—they have finally seen the need to make the synthetic environment a primary focus area,” he said. “Everybody realizes that the future of mission rehearsal and test and training—it’s going to happen in the synthetic environment.”

This story was updated at 11:51 a.m. Aug. 25 to clarify the role of the Distributed Mission Operations Center (DMOC).

B-52s Fly Over NATO Allies in Southeastern Europe

B-52s Fly Over NATO Allies in Southeastern Europe

Aug. 22, 2022 | By Greg Hadley

Having arrived in Europe just a few days ago, B-52s from Minot Air Force Base, N.D., executed low approach flyovers over four NATO allies in the Balkans region Aug. 22.

The pair of B-52 bombers, from the 23rd Bomb Squadron, flew over North Macedonia, Albania, Montenegro, and Croatia over the course of roughly an hour, “to demonstrate U.S. commitment and assurance to NATO Allies and partners located in Southeastern Europe,” according to a release from U.S. Air Forces in Europe. 

“Additionally, this will provide citizens an opportunity to take photos, videos, and enjoy the aircraft flying overhead,” the release stated.

Images from the flight quickly circulated on social media, with the iconic bomber flying over the capitals of North Macdeonia and Albania.

No exercises or integration with those nations were announced as part of the flyover.

The two B-52s form half of the contingent of bombers that arrived at RAF Fairford, U.K., as part of a bomber task force mission. On top of their flight in southeastern Europe, the Airmen and aircraft have also already integrated with fighters from Norway and Sweden.

The bombers’ flyover is the latest sign of U.S. air power in a region where smaller states have requested an increased U.S. presence to counter Russian aggression in the lead-up to and following its invasion of Ukraine.

In March, F-16s from Aviano Air Base, Italy, deployed to Croatia and participated in agile combat employment exercises alongside Croatian MiG-21s. In June, F-35s from the Vermont Air National Guard landed in North Macedonia and ​​performed rapid refueling and crew swaps.

And B-52s have spent time in the region as well. In June, bombers from Barksdale Air Force Base, La., flew on the other side of the peninsula over the Black Sea. And in June 2021, B-52s flew over the Balkans as part of one continuous sweep over every NATO nation.

Airplane-Makers Win Contracts as Part of Next-Gen Engine Prototyping Phase

Airplane-Makers Win Contracts as Part of Next-Gen Engine Prototyping Phase

Aug. 22, 2022 | By Greg Hadley

The Air Force’s propulsion program tasked with producing engines for the Next Generation Air Dominance fighter awarded contracts to a mix of both engine-makers and aircraft-builders Aug. 19, hinting that integration could be a priority in the prototyping process.

Boeing, GE Aviation, Lockheed Martin, Northrop Grumman, and Pratt & Whitney all received indefinite-delivery, indefinite-quantity contracts with a ceiling of $975 million for the prototyping phase of the Next Generation Adaptive Propulsion program. 

As part of the contracts, those companies will focus on “technology maturation and risk reduction activities through design, analysis, rig testing, prototype engine testing, and weapon system integration,” the award states, with work expected to last until July 2032.

The inclusion of GE and Pratt & Whitney in the NGAP program is hardly surprising. John Sneden, director of the Air Force Life Cycle Management Center’s propulsion directorate, indicated as much earlier in August at the Life Cycle Industry Days conference. The two engine-makers are already competitors in the Air Force’s Adaptive Engine Transition Program.

Boeing, Lockheed Martin, and Northrop Grumman, however, typically don’t make engines. The exact work they’ll be doing as part of NGAP wasn’t specified in the contract award, and none of the three companies immediately responded to inquiries from Air Force Magazine.

But while Sneden has pushed for more competition in the propulsion industrial base—and the contract award states that it is focused in part on “digitally transforming” that base—the three contractors are mostly known for building aircraft, and all three have shown interest in developing a sixth-generation fighter like NGAD.

Their inclusion in NGAP, then, could help steer the prototyping process to ensure that the future engine and fighter integrate seamlessly.

“Any propulsion system has to be built and designed for the specific platform on which it’s operating. And it’s especially true for these adaptive engine systems,” said Mark J. Lewis, executive director of the National Defense Industrial Association’s Emerging Technologies Institute and former chief scientist of the Air Force, in an interview. “So you’d want to develop the engine hand in hand with an airframe. It’s going to be more difficult to make an adaptive engine a sort of a plug-and-play system. Not impossible.”

Lewis was quick to note that his views were speculative. But some of the technological advances coming with the adaptive engines could require fighters built to take full advantage of them, Lewis said. In particular, adaptive engines can transition between modes optimized for thrust and for range.

“Today if you design an airplane, you start deciding, what’s most important. Does it have to have maximum acceleration at this point in its performance? Does it have to be able to fly for a maximum range? And those two requirements, for example, could be at odds with each other,” Lewis said. “With an adaptive engine, you might be able to get the best of both worlds. And so your airframe might reflect that.”

Other considerations, Lewis said, include the third stream of air that is being incorporated into the design of the adaptive engines in AETP. That third stream “changes a little bit the geometry of the engine,” Lewis said.

The development processes of engines and airframes “usually do go hand in hand,” Lewis added, but that can vary substantially depending on the situation. The F135 that powers the F-35, for example, was developed from the F119, which powers the F-22.

But with engines like the ones from AETP and NGAP, industry and Air Force officials have often spoken of a generational jump in capability. And with that jump, Lewis said, it would make sense for the service to ask the companies competing for the NGAD fighter, “If you have an engine that operates along these lines, that can do this differently than previous engines, then what does it mean for the airframe that you’re designing?”

In June, Air Force Secretary Frank Kendall revealed that the NGAD fighter has entered the engineering and manufacturing development phase, but he later clarified that there is still a competition for the program. He did not, however, specify how many contractors are still in the running.

US Includes ScanEagle ISR Drones in Ukraine’s Latest Aid Package

US Includes ScanEagle ISR Drones in Ukraine’s Latest Aid Package

Aug. 22, 2022 | By Amanda Miller

A new $775 million security package to help Ukraine fight Russia includes 15 ScanEagle unmanned aerial systems for intelligence, surveillance, and reconnaissance that a Pentagon official said “will enable the targeting of the whole host of artillery capabilities that Ukraine has available.”

The official said in a press briefing Aug. 19, announcing the latest round of aid, that the ScanEagle systems will “give Ukraine additional ISR to conduct better reconnaissance around the front lines.” It was the first time the U.S. provided ScanEagles, but “another ally … is also providing” the system. The official was unaware of whether ScanEagles had “actually been fielded yet from that ally.”

A mobile USAF ScanEagle system includes four aircraft weighing just under 40 pounds each launched by catapult and recovered after catching on a rope hanging from a 30- to 50-foot pole, according to a USAF fact sheet. It includes ground control and a remote video terminal.

The Air Force says it uses the system, equipped with a camera and thermal imager, for “real-time, direct situational awareness and force protection information for Air Force security forces expeditionary teams.”

Insitu, a Boeing subsidiary, makes the ScanEagle system. Boeing says the system is in service in more than 20 countries plus commercially, with more than 48,000 shipboard flight hours with the U.S. Marine Corps and Navy since 2004. The vehicles can fly at 15,000 feet for more than 24 hours.

The U.S. contribution to Ukraine’s defense now amounts to $10.6 billion—$9.9 billion of it since Russia invaded Feb. 24—according to a fact sheet summarizing the aid as of Aug. 19. In all, UASs have included:

  • 15 ScanEagles
  • more than 700 Switchblades
  • about 700 Phoenix Ghosts
  • Pumas (no number given). 

In terms of Ukraine’s progress, “We haven’t seen a significant retake of territory, but we do see a significant weakening of Russian positions in a variety of locations,” the official said.

The latest round of aid includes:

  • Additional ammunition for High Mobility Artillery Rocket Systems (HIMARS)
  • 16 105mm Howitzers and 36,000 105mm artillery rounds
  • 15 ScanEagle unmanned aerial systems
  • 40 MaxxPro Mine Resistant Ambush Protected vehicles (MRAP) with mine rollers
  • Additional High-speed Anti-Radiation Missiles (HARM)
  • 50 armored High-Mobility Multipurpose Wheeled Vehicles (HMMWV)
  • 1,500 Tube-launched, Optically tracked, Wire-guided (TOW) missiles
  • 1,000 Javelin anti-armor systems
  • 2,000 anti-armor rounds
  • Mine clearing equipment and systems
  • Demolition munitions
  • Tactical secure communications systems
  • Night-vision devices, thermal imagery systems, optics, and laser rangefinders.
Half of Air Force Advanced STEM Billets Go Unfilled or Require Waivers

Half of Air Force Advanced STEM Billets Go Unfilled or Require Waivers

Aug. 21, 2022 | By Amanda Miller

Half of the Air Force’s billets that call for advanced academic degrees in science, technology, engineering, or math are either unfilled or filled by someone who doesn’t hold the degree. At the same time, the Air Force has the fewest general officers with advanced STEM degrees in 30 years.

A group from the Air Force Research Laboratory quantified the deficiencies in STEM officers as part of their effort to implement the Air Force’s “Science and Technology Strategy: Strengthening USAF Science and Technology for 2030 and Beyond” from 2019 to 2021, according to a news release.

The group made recommendations about improving the pipeline of uniformed personnel with technical backgrounds, and a number of efforts are helping the service to build more technically savvy forces.

“In the past, there was a big push for Airmen with technical degrees, and [that] hasn’t gone by the wayside, but maybe that emphasis has decreased a little bit,” Col. Daniel Gallton, chief of the science and engineering division inside the Air Force Office of Scientific Research, said in the release. 

Letting the numbers decline could put the U.S. at a competitive disadvantage, Gallton said: “When you start looking at some of our near peers like China—China has been pushing a lot of advanced academic degrees.”

Air Force general officers are half as likely to have an advanced STEM degree as leaders at Fortune 500 companies, the researchers found—15 percent compared to 30 percent. 

“If you could look at fill-rates for positions coded for STEM masters or doctorates, they only have STEM [advanced academic degree members about 50 percent of the time,” said Col. Mario Serna Jr., deputy director of innovation and technology integration at the Department of the Air Force Rapid Capabilities Office’s Field Support Unit, in the release. The billets go unfilled or someone without the degree receives a waiver to serve in the role.

“In either case, it is an example of not having enough STEM advanced degree holders at a time when the battlefield is strongly one of technology innovation,” Serna said.

To begin addressing the issue, AFRL’s team hosted a panel discussion earlier this month at the Wright Dialogue With Industry 2022 and plans another discussion Oct. 13 on “how best to structure the [science and engineering] career field.”

Even before the AFRL team became aware of the extent of the problem, the 2030 strategy document laid out bullet points for how to build a pipeline of tech-savvy Airmen, including to “purposefully manage” the career fields; support opportunities for the “technical military workforce” to “broaden its technical expertise and expand its warfighter perspective”; and to start filling technical billets at the general officer level.

Giving officers ways to try new things in a “failure-tolerant environment” can help to broaden expertise, according to the release. Examples have included Edison Grants that fund a year of research experiments and Project Arc, described as assigning scientists and engineers to work closely with operators at 13 bases in nine states “to promote innovation and enhance mission efficiency.”

More programs the Department of the Air Force is trying out to develop the STEM workforce include University Affiliated Research Centers, the AFRL Regional Research Hub network, and the Space Force’s University Partnership Program.

644th Combat Comms Squadron Takes on an F-35 ACE Challenge

644th Combat Comms Squadron Takes on an F-35 ACE Challenge

Aug. 19, 2022 | By Abraham Mahshie

For 30 days in April and May, a group of expeditionary communications technicians got together at Eielson Air Force Base, Alaska, with one task: Find a way for the F-35 to transfer data on remote or contested Pacific islands.

Often referred to as a “flying computer,” the F-35 has sophisticated technological capabilities, but it also requires datalink connections to use and share vast quantities of information at high speed. When the F-35 lands at U.S. Air Force bases, it unloads its data to a server known as the Air Force Network, or AFNet. Maintainers and operators can then study that information to service the jet and record mission data for future planning.

Access to such servers does not exist on remote Pacific islands where the fifth-generation fighter would have to operate to exercise the concept of agile combat employment, or ACE.

But leaders of the 644th Combat Communications Squadron at Andersen Air Force Base, Guam, heard Air Force Chief of Staff Gen. Charles Q. Brown Jr.’s call to take risks, and to not be afraid to fail, and they proposed a unique test and evaluation to address the problem.

Suddenly, bureaucracy melted away.

“When Gen. Brown says, ‘Accelerate change or lose’—when he says, ‘Hey, get rid of bureaucracy’—to me, that is like carte blanche,” 644th CBCS commander Lt. Col. Anthony Butler told Air Force Magazine in a June interview at Andersen.

“We are empowered to get after these problems that have been problems for a long time,” he added.

Butler knew that the kind of network a combat communications squadron sets up in an expeditionary environment is limited in bandwidth and the applications it can perform.

“The F-35 is essentially a flying data center,” he said.

“There are a lot of network dependencies that we [need] to allow that F-35 to function at its peak level,” he added. “That was one of the challenges when I came to this job that I saw: ‘Hey, advanced technologies, advanced applications, being put in an austere location,’ and me, as an expeditionary communicator, enabling that capability.”

Butler started a working group to approach the problem. With PACAF funding, a team of five spent 30 days at Eielson for a test and evaluation of existing expeditionary capabilities with the F-35.

We Just Have to Ask, ‘Pretty Please’

The 644th comms personnel got together and talked about what the requirements would be and what limiting factors they faced. They reached out to several units, including the Defense Information Systems Agency, the 26th Network Operations Squadron (26th NOS), the 83rd NOS, the 690th NOS, the 561st NOS, and Lockheed Martin contractors to explain to them how the F-35 information systems work and the data flows and timelines required to achieve the mission.

“We were tasked by PACAF … to come up with a solution that would enable the F-35s to operate solely off our technical communication networks,” Capt. Antonio Payne, who served as the team leader, said in a July telephone interview.

“What’s different about this AOR [area of responsibility] is there’s a bunch of islands where a bunch of jets and a bunch of people go to,” said Tech. Sgt. Austin Jeanneret, explaining how the model they sought to design needed to work for the ACE hub-and-spoke concept. That meant setting up a deployed base location with several sites, all remote, all using the same expeditionary network.

The jets would not be co-located with the combat communications systems at the hub.

Jeanneret has spent nine years of the dozen in his Air Force career setting up expeditionary communications networks with nothing more than the 560 pounds of equipment in the kit. He was after a solution that would work for F-35s from the Air Force, Navy, Marine Corps, and some foreign nations.

“If they forward deployed out, no matter where that be, they can still reach back into that location that we’re primarily at,” he said of the hub.

First the team looked at the requirements.

“What are your data timelines?” he said was the first question asked of the Lockheed Martin contacts. “You need to get information from Point A to Point B in what amount of time with what amount of speed, and you need to have all that available in what time?”

The principal challenge was that expeditionary communications use a technical communications network typically designed to allow access to just voice and email. The combat communications network could talk to AFNet, but not access its services. Getting that access, even within the Air Force, required technical know-how, politeness, and patience.

“We just have to ask, ‘Pretty please, can we get access?’ Then you run into a lot of bureaucracy, and then at the end of it, you get access,” he said of the steps taken to request more satellite bandwidth to run the operation.

Tech. Sgt. Michael Lopez, a radio frequency transmission systems operator, was charged with setting up satellite communications terminals at Eielson, simulating a deployed environment. The hub had an 8-foot inflatable GATR satellite antenna while the spokes had smaller satellite dishes.

Then, Eielson switched its data transmission to the combat communications network.

“It was a lot of data, but I don’t think it’s something that we’ve ever looked at before,” he said. “We kind of had to see how much data was going through it to see if we needed to increase that with our service provider.”

The team gathered the data, ran tests, monitored the timing and data flows being pushed, and assured that those were available back to the warfighters.

“We needed to kind of know and kind of stretch to see how much the F-35 on our system, how much data they were using up,” said Payne. “And if they were using it, would we also be able to provide services to other people that will be operating on our network?”

In all, the technical communications networks pushed through roughly 50 gigabytes of data from about 100 F-35 sorties over seven days.

“That F-35 was able to pass all the data it needed to pass to the locations it needed to pass and to the platforms it needed to pass it to over our expeditionary kit using military satellite communications, and that was the first time,” said Butler.

“You talk about folks at the lowest levels being enabled? Yeah, like I said, this was led by a captain, three tech sergeants, and a civilian,” he added. “I’ve seen the benefit of leaders empowering their folks. Giving left limits, giving right limits, and giving them commander’s intent. And watching the amazing things they did.”

With a small adjustment to the kits, the 644th Comms team created a solution for PACAF’s F-35 operations wherever they may fly globally.

“We created a solution where a tactical network can communicate to a tactical network, and then that main tactical network connecting to AFNet,” said Jeanneret. “That was the biggest win out of this.”

Butler said PACAF employed the lessons learned in planning for the Valiant Shield exercise in June, which used F-35s in hub-and-spoke operations on the island of Palau in the South Pacific.

“You know about certain bases if you are an adversary,” Jeanneret said. “What this enables us to do is drop an F-35 anywhere around the globe at any time.”

Space Force Hopes for Wear Testing of Uniforms in Spring 2023

Space Force Hopes for Wear Testing of Uniforms in Spring 2023

Aug. 19, 2022 | By Greg Hadley

DAYTON, Ohio—Right now, just six prototypes of the Space Force’s service dress uniform exist—the two debuted by male and female officers in September 2021, two more for enlisted male and female Guardians, one for Chief of Space Operations Gen. John W. “Jay” Raymond, and one for Chief Master Sergeant of the Space Force Roger A. Towberman.

In the next several months, the service and the Air Force Uniform Office plan to expand those numbers—and draw ever closer to getting the new duds out to every Guardian, leaders said during the Life Cycle Industry Days conference.

Since the uniforms first debuted at AFA’s Air, Space & Cyber Conference in 2021, the Space Force has taken them on roadshows and tweaked some elements of the design, particularly the collar and the pants.

The next step is “fit testing,” said Catherine Lovelady, change management team lead.

“So that is next where they roll out … about 30 different sizes for males and females. And we’ll have people come in and try them on and see how are they fitting,” Lovelady said. “And they might have to do some pattern adjustments to it after that.”

After that comes “wear testing,” which involves making “another set of 100 uniforms that will actually be worn by Guardians for at least three times a week for three months, to see what did they feel like, what did they like, not like, and if any kind of changes need to be made from there,” Lovelady said.

From there, the Air Force Uniform Office will confirm the details and “specs” of the design before sending them to the Defense Logistics Agency, which will put the uniform into production.

The timeline on fit and wear testing is still a little unsettled due to supply chain issues that have plagued the process—and other military branches—for months now. Tracy Roan, head of the Uniform Office, previously noted that her team wasn’t even slated to receive fabric for test assets until “late summer.”

Tentatively, however, the Space Force is now planning on fit testing taking place “somewhere between November and January. … And then, once we complete that, we’ll move to wear testing, which we hope to be in the spring [of 2023].”

All the while, Lovelady said, the Space Force has continued to receive positive feedback on the design of the uniforms, which incorporates symbols such as the USSF delta logo, a standing collar on the dark blue—nearly black—jacket, and a row of six offset buttons representing the six U.S. armed services. 

In particular, Guardians have liked how the new uniforms allow for more movement than the traditional service dress uniforms, Lovelady said.

“One of the things that Tracy and [the Air Force Uniform Office] did is they’ve gone out and looked at different fabrics,” Lovelady said. “So our material actually has some stretch to it. It’s not the same polywool that has been used in the past. It’s still a polywool, but it has lycra. … So it’s much more comfortable. People can move in it. 

“And especially with ours being a little bit more tighter through the [torso] because it’s essentially double breasted, it comes over, and it allows them that movement. I mean, when we went out on the roadshows, our female officers were like, ‘Look, I could do calisthenics in it.’ And people really, they put it on, and they’re like, ‘Oh my God, this feels so good.’ So we really had it well received.”

The emphasis on designing uniforms specifically for female Guardians has been a frequent theme from Space Force leaders throughout the rollout.

“Quite frankly, in the past, and I’m a retired military member, uniforms didn’t fit women necessarily as well as a lot of people would like,” Lovelady said. “And that has been really driven really by the top down. Our senior leadership wants to make sure that women have a uniform that fits appropriately and looks appropriate on them.

“And you’ll notice that with ours, we did a lot of things like, typically, women’s shirts close one way and men’s shirts close the other. And so when you look at the design of ours, it has that asymmetric look to it. We intentionally made it so it’s the same for both males and females. So when you see them at a distance, it’s not like on the males, the asymmetry goes one way and on females the other way. So it looks the same, but they wear appropriately for females.”

B-52s Land at RAF Fairford for Bomber Task Force Mission

B-52s Land at RAF Fairford for Bomber Task Force Mission

Aug. 18, 2022 | By Greg Hadley

Multiple B-52 bombers from Minot Air Force Base, N.D., arrived at RAF Fairford, England, on Aug. 18 as part of a bomber task force mission in Europe, U.S. Air Forces in Europe announced.

“These Bomber Task Force missions across Europe provide a great opportunity to improve our combined readiness, promote interoperability and demonstrate our global power projection alongside our Allies,” Gen. James Hecker, commander of USAFE-AFAFRICA, said in a statement. “Our ultimate strength in the European area of operations is a joint-force lethality—our ability to train and operate with our Allies and partners as one layered, capable and credible combat team.”

Flying into Fairford, the B-52s from the 5th Bomb Wing got a quick start on that training with allies, integrating with fighters from Norway and Sweden.

For Sweden, in particular, the integration marks another milestone as the country continues to progress toward NATO membership.

“Witnessing our nation’s Gripen fighter aircraft flying alongside several of America’s most powerful military aircraft visually depicts the strength and solidarity of NATO,” Maj. Gen. Carl-Johan Edström, commander of the Swedish Air Force, said in a statement. “These moments truly capture the military power that exists within NATO—as individual nations, but, more importantly, as a unified Alliance.”

Media reports in the United Kingdom noted four of the iconic bombers landing at Fairford, garnering considerable attention from locals.

“Our strategic bomber missions demonstrate our always ready, global strike capability,” Lt. Col Ryan Loucks, 23rd Expeditionary Bomb Squadron BTF commander. “The B-52 remains a universally recognized symbol of America’s assurances to our Allies and partners.”

This marks the second time this year B-52s from Minot have flown to RAF Fairford for a bomber task force mission. In February, four of the bombers arrived in Europe. Prior to that, B-1B bombers from Dyess Air Force Base, Texas, deployed to RAF Fairford in November 2021.

RAF Fairford is the only forward operating location for U.S. bombers in Europe, so bomber task forces are usually based from there, with the aircraft flying missions across the continent and sometimes farther in a projection of U.S. air power and as an opportunity for aircrews to integrate with allies and partners.

This most recent BTF marks the first one the Air Force has announced since Russia invaded Ukraine in late February, raising security concerns across the region and leading NATO to significantly increase its air policing and air shielding missions along its eastern flank. USAFE’s release on the mission made no mention of Russia, and it is unclear if the B-52s will fly over Eastern Europe during their time in the region.

b-52 mission
A U.S. Air Force B-52H Stratofortress from Minot Air Force Base, N.D., lands at RAF Fairford, England, Aug 18, 2022. Royal Air Force photo.