December 17, 2019 | Local, Aerospace
by Kris Osborn
(Washington, D.C.) Drone fighter jets, hypersonic attack planes, artificial intelligence, lasers, electronic warfare and sensors woven into the fuselage of an aircraft - are all areas of current technological exploration for the Air Force as it begins early prototyping for a new, 6th-Generation fighter jet to emerge in the 2030s and 2040s.
While the initiative, called Next Generation Air Dominance(NGAD), has been largely conceptual for years, Air Force officials say current “prototyping” and “demonstrations” are informing which technologies the service will invest in for the future.
“We have completed an analysis of alternatives and our acquisition team is working on the requirements. We are pretty deep into experimenting with hardware and software technologies that will help us control and exploit air power into the future,” Gen. James Holmes, Commander, Air Combat Command, told reporters at the Association of the Air Force Air, Space and Cyber Conference.
Part of the progress with the program, according to Air Force Acquisition Executive William Roper, is due to new methods of digital engineering.
“I have spent six months with our industry leaders and NGAD team looking at examples of applied digital engineering. I'm impressed with what they have done,” Roper.
Digital engineering, as Roper explains it, brings what could be called a two-fold advantage. It enables weapons developers to assess technologies, material configurations and aircraft models without needing to build all of them -- all while paradoxically enabling builders to “bend metal” and start building prototypes earlier than would otherwise be possible.
“The reward is more than the risk,” Roper said, speaking of the need to “try something different” and pursue newer acquisition methods which at times results in prototyping earlier in the process than the traditional process typically involves.
The Air Force Research Laboratory has been working with the acquisition community on digital engineering techniques, often explored through modeling and simulation, for many years.
“Digital engineering is another exciting area and we see the opportunity to accelerate the pace of moving things from the bench level of science and technology into a system, integrating concepts into an operational campaign model,” Tim Sakulich, Executive Lead for Implementing the Air Force S&T Strategy and Air Force Research Laboratory Lead for Materials and Manufacturing, told Warrior in an interview.
Current work on a futuristic 6th-gen fighter - to come after and fly alongside upgraded F-35s -- includes development of stealthy drone fighters, hypersonic flight, lasers, new precision weaponry and advanced AI able organize targeting data in milliseconds.
While all of these things are of course key parts of the equation, the Air Force Penetrating Counter Air/NGAD program is equally focused on information exchange itself as a defining element of future war. Such an approach, looking beyond isolated systems and weapons themselves, envisions expansive “networked” combat with war platforms operating as “nodes” in a larger warfare system of weapons and sensors working together in real time.
“This approach is one that views military operations in terms of wholistic elements of an information-shooter-effector complex. That will require a lot more going into the design of the next generation of combat aircraft than how fast and far it can fly - or what the numbers of weapons it can carry,” Ret. Lt. Gen. David Deptula, former planner of the US air attacks in Operation Desert Storm and current Dean of the The Mitchell Institute for Aerospace Studies , told Warrior Maven in an interview.
The NGAD program, which traces its history to the Air Force's “Air Superiority 2030 Flight Plan,” envisions the possibility of a “family of capabilities.”
Holmes explained that this study began by examining more than 650 different ideas for 6th-Gen combat, which were then narrowed down to merely a few.
Directed by the Air Force Chief of Staff, service weapons developers who worked on the study have been working in Enterprise Capability Collaboration (ECCT) teams designed to pursue next-generation air superiority.
“We are moving into a future where aircraft need to be looked at as not just elements of their own, but as a system of information nodes - sensor - shooter - effectors. It is about creating an entire system of systems that is self-forming and self-healing with a greater degree of awareness than an adversary can achieve, and a much greater degree of survivability,” Deputla said.
Northrop Grumman, Lockheed Martin's Skunk Works and Boeing's Phantom Works are all among a handful of industry developers already working on prototype 6th Gen planes and advanced technologies - intended to align with key elements of the Air Force vision. The Air Force itself, while not yet decided upon a particular platform or fixed set of new technologies, is moving quickly beyond the conceptual realm into the active exploration of weapons, sensors, technologies and networks.
“There are maybe two to three companies that can build high-performance tactical aircraft,” Roper said.
Next-generation stealth technology is also of course a large focus of the technical equation. Newer radar absorbing coating materials, improved IR suppressants or thermal signature management, evolved radar-eluding configurations and acoustic reduction technologies offer a window into current areas of developmental focus. A 2013 Essay by the NATO Parliamentary Assembly Science and Technology Committee discusses the evolution of advanced heat reduction technologies built into the “skin” of an aircraft.
“To become low-observable in multiple spectrums, advanced skins manage a plane's heat distribution to foil radar, infrared, and thermal detection systems. These skins do this by distorting or eliminating heat distribution to restructure its thermal shape. They may also be able to heat up or cool down all parts of an aircraft's surface to perfectly match the surrounding atmosphere, making it virtually undetectable,” the report, titled “The Future of Combat Aircraft: Toward a 6th Generation Aircraft,” writes.
The Air Force B-21 Raider, a new stealth bomber expected to emerge in the mid 2020s, is said by developers to incorporate a new generation of stealth - but very few details are available.
Engine development is yet another area of major leap-ahead technological focus, according to the NATO Parliamentary Assembly report. Emerging “Variable Cycle Engines” introduce a third air stream into an engine, which can be controlled by the pilot, the essay explains. The new engines reportedly massively increase an aircraft's reach, fuel efficiency and speed.
“By opening or closing the third air stream, the pilot can adjust the fuel intake of the jet engine and optimize its performance,” the report states.
Fighter-jet launched laser weapons, expected to be operational by the mid 2020s, are of course part of the planning for 6th-Generation fighters.
Targeting and sensor technology, coupled with advanced guidance systems, are progressing so quickly that ships, fighter jets and land assets can no longer rely upon an existing threat envelope. Simply put, all US military systems will increasingly become more vulnerable as enemies acquire more drones, high-speed fighter jets and longer-range precision weaponry - all enabled by AI-fortified long-range sensors and targeting technology. This includes the emergence of advanced enemy fighter jets, ships, ballistic missiles and weapons such as land-based anti-ship missiles, all further necessitating the need for information and combat awareness in warfare.
The pace of advancement in computer processing speeds, miniaturization and AI also promise to bring new things to air combat. Algorithms able to instantly gather, compile and organize ISR data and perform real-time analytics will bring faster targeting and attack systems to fighters. AI-enabled real time analytics will, for instance, bring an ability to compare new sensor information against vast databases of relevant data in milliseconds.
Information dominance, therefore, could among other things enable a fighter jet to both launch attacks and also function as an aerial ISR node. Operating as part of a dispersed, yet interwoven combat sensor network, a fighter could transmit combat relevant data to air assets, ground-based weapons, command and control centers, Navy ships and satellites.
If a ship, ground or air commander has occasion to see or learn of an incoming attack at greater distance, he or she is obviously much better positioned to defend it. Perhaps, for instance, a medium-range ballistic missile attack is airborne, approaching land based artillery formations or a Carrier Strike Group - what might a Commander do? Should the attack be met with a ground-based interceptor, jammed with electronic warfare technology, hit with a laser or thrown off course in some other way? What if a fighter jet, configured to function as an aerial node in a larger interwoven combat network, were able to detect the approaching attack earlier in its trajectory? From beyond the horizon? Perhaps the jet might itself be positioned to attack, intercept or dismantle the approaching missile - or at least provide early warning to the weapons intended target. In this case, more “time” simply means more options to inform a commander's decision cycle.
Referring to this emerging tactical complex as a “combat cloud,” Deptula posited that, for instance, an aircraft such as an F-35 could cue or alert an Aegis Navy Cruiser about an incoming attack, therefore offering ship-based radar, fire control and interceptor weapons a vastly improved envelope with which to take out an attack. Thus, an interconnected web of attack, targeting and information nodes can better sustain operations should one node be destroyed, and “sensor-to-shooter” time can be massively accelerated.
December 5, 2022 | Local, Naval
The repairs to HMCS Harry DeWolf won’t be covered by Irving Shipbuilding because the warranty for the company’s workmanship on the vessel, delivered in 2020, was only for one year, a National Defence spokesperson said.
March 10, 2020 | Local, Aerospace, Naval, Land, C4ISR, Security
In the last election campaign the Liberals promised to create a defence procurement agency as part of its efforts to improve purchasing of equipment for the Canadian Forces. No details were released at the time. In December, Prime Minister Justin Trudeau, in his mandate letter to Procurement Minister Anita Anand, outlined how she would lead an effort to bring “forward analyses and options for the creation of Defence Procurement Canada, to ensure that Canada's biggest and most complex National Defence and Canadian Coast Guard procurement projects are delivered on time and with greater transparency to Parliament.” Anand would do this with the support of the Minister of National Defence and the Minister of Fisheries, Oceans and the Canadian Coast Guard, according to her mandate letter. At the time Defence Minister Harjit Sajjan claimed much of the work was already underway. “A lot of work has already started on (Defence Procurement Canada) and the goal of this is to make sure that we get the procurement projects done as quickly as possible to make sure the Canadian Armed Forces has what they need,” Sajjan told iPolitics the day before his mandate letter was released. Strangely, when asked about that work, Sajjan's department pointed out that he wasn't specifically referring to the DND and that Anand's Public Services and Procurement Canada (PSPC) had the lead on the file. So, Defense Watch requested the timetable for this effort. Among the questions asked of Anand's department was when the new agency could potentially be expected to be stood up, will there be consultations done and whether there were any concepts already put forward for the agency that could be shared with the public? If this were such an important effort then of course the department would have an idea of at least a timeline on how things might unfold. Here is the answer provided by PSPC: “The Minister of Public Services and Procurement has been tasked to work with partner departments to bring forward analyses and options for the creation of Defence Procurement Canada. Public Services and Procurement Canada is leading this work with support from National Defence, Canadian Coast Guard, and Innovation Sciences and Economic Development Canada. This initiative is aimed at ensuring that Canada's biggest, most complex procurement projects are delivered on time and with greater transparency to Parliament. Work on this important initiative has just begun.” This answer provides little more than what was in the mandate letter. No details on what actual work was being contemplated or taking place was provided. There is no schedule or target date for even producing options and reporting back to government on those. In fact, this PSPC answer seems to undercut Sajjan's earlier claims that “a lot” of work had already started even before the mandate letters were released. Some in the defence industry don't expect much to come from the Liberal election promise of a single defence procurement agency. They point out their case is bolstered when the department leading the initiative doesn't know, or can't provide, even a timetable for such an initiative. The public, as well as industry, will have to wait and see whether Defence Procurement Canada ever becomes a reality. (Analysis) https://ottawacitizen.com/news/national/defence-watch/government-doesnt-know-when-a-defence-procurement-agency-will-be-created
June 18, 2020 | Local, Aerospace
David Pugliese • Ottawa Citizen The U.S. government has cleared the way for Canada to buy more than $1 billion worth of new missiles and related equipment for the Royal Canadian Air Force's CF-18 fighter jet fleet. The U.S. State Department approved the proposed sale to Canada for the 50 Sidewinder AIM-9X Block II Tactical missiles, radars and other various equipment for an estimated cost of $862.3 million U.S. ($1.1 billion Canadian). U.S. Congress was informed of the deal on Monday. The Defense Security Cooperation Agency in the U.S. announced the news on Tuesday. The companies involved in the sale are U.S. firms, Raytheon, General Dynamics, Boeing and Collins Aerospace. “This proposed sale will support the foreign policy and national security objectives of the United States by helping to improve the military capability of Canada, a NATO ally that is an important force for ensuring political stability and economic progress and a contributor to military, peacekeeping and humanitarian operations around the world,” the Defense Security Cooperation Agency stated in its announcement. ”This sale will provide Canada a 2-squadron bridge of enhanced F/A-18A aircraft to continue meeting NORAD and NATO commitments while it gradually introduces new advanced aircraft via the Future Fighter Capability Program between 2025 and 2035.” Besides the 50 Sidewinder missiles, the deal will include training missiles, guidance systems, 38 specialized radar units, 20 Joint Standoff Weapons as well as support equipment. In an email the Department of National Defence stated that the U.S. approval for the missiles and related equipment is part of the “Hornet Extension Project” or HEP. That is part of the overall $1.3 billion project cost and fleet maintenance costs, it added. “HEP will also provide upgrades to sensors, weapons, and survivability, as well as security enhancements,” the DND noted. https://ottawacitizen.com/news/national/defence-watch/canada-to-buy-more-than-1-billion-of-missiles-related-equipment-from-u-s-for-cf-18-fighters