Contract Awards by US Department of Defense - November 18, 2020

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  6 mai 2020 | International, Aérospatial

  Israel acquires FireFly loitering munition for close combat

  Seth J. Frantzman JERUSALEM — Israel's Ministry of Defense has procured the FireFly, a lightweight loitering munition designed for infantry and special forces. Jointly developed by Rafael Advanced Defense Systems and the MoD, FireFly's canister-deployed design with multiple rotors enables it to hover around buildings and attack concealed enemies that may be beyond line of sight or hiding in urban environments. FireFly is designed to fulfill a need that platoons and smaller units have on the modern battlefield for an unmanned system that is rugged and lightweight. Mini-UAVs are increasingly in demand for infantry use, and the ability to combine them with loitering munitions that can conduct surveillance and attack has become the next step for ground forces. FireFly was designed over the last 15 years based on sketches produced as far back as the Six-Day War, when Israeli soldiers had to fight in the early morning amid trenches in Jerusalem during the Battle of Ammunition Hill. Also taken into account during the design period were Israel's experiences fighting militants in close combat in urban areas, such as the Gaza Strip, as well as knowledge of the difficulties armies have faced in fighting in places like Mosul, Iraq, against the Islamic State group. Gal Papier, director of business development at Rafael's Tactical Precision Weapons Directorate, said the current FireFly model has a seeker, warhead and data link with electro-optical features that are similar to Rafael's larger Spike missile family. The Spike group of munitions includes precision-guided tactical missiles. The main difference is the addition of dual rotors so the FireFly can hover and remain stable in windy environments. “It's a different way of looking at missile guidance,” Papier said. “This is innovative and new — it's a missile that folds into a small canister.” First unveiled in 2018, Papier foresees the FireFly as “infantry's best friend,” enabling forces to both scout and attack. The warhead is small, coming in at only 400 grams, but Rafael says it is lethal enough for infantry and special forces missions. “Normally the targets are insurgents or suppressing machine guns or a sniper,” Papier explain, comparing the FireFly to UAVs that carry 20-kilogram payloads and must be launched by catapult. FireFly gives an operator up to 1.5 kilometers of line-of-sight use and 500 meters of non-line-of-sight use. It can return to the user with the click of a button, and its technology provides situational awareness to avoid collisions with obstacles. It can also operate during the day or night with a low acoustic signature. Its battery and warhead can both be replaced; the warhead can be swapped for another battery to provide double the 15-minute flying time for surveillance missions. The press of a button on the operator's tablet causes the warhead to slam into an enemy at up to 70 kph. It is also designed with safeguards, such as an abort capability. Rafael also foresees the FireFly launched from vehicles, with several units contained in a pod or “beehive” that would operate from inside the vehicle. This is in line with the increased use of smaller tactical UAVs with armored vehicles, and future battlefield concepts that foresee vehicles and infantry units operating in sync with numerous drones. “We are in [the] design stage of these pods, tailored for different vehicles. We see it as a building block,” Papier said. Israel's procurement of the FireFly and its deployment with infantry units are part of the country's multiyear plan to restructure its armed forces, known as “Momentum.” The plan also calls for increased digitization of land forces and for units to have access to more UAVs and technology. This is meant to bring intelligence assets as far forward as possible to battalion- and company-level units sharing information gathered by UAVs on a network. Papier noted that the increased deployment of loitering munitions like this will change infantry units as they decide how to make soldiers into dedicated drone operators. https://www.c4isrnet.com/unmanned/2020/05/05/israel-acquires-firefly-loitering-munition-for-close-combat/

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  6 juillet 2018 | International, Aérospatial

  Fighting for “Future Vertical Lift”

  BY JAN TEGLER ROTORCRAFT ADVOCATES IN THE U.S. MILITARY HAVE BEEN LAYING THE RESEARCH GROUNDWORK TO REPLACE MANY OF TODAY'S HELICOPTERS WITH VERSIONS THAT WOULD EMPLOY A REVOLUTIONARY PROPULSION CONCEPT TO-BE-DECIDED. JAN TEGLER LOOKS AT THE BATTLE TO ELEVATE THE FUTURE VERTICAL LIFT INITIATIVE INTO AN ACQUISITION PROGRAM AND SPEED UP ITS SCHEDULE. Army Chief Warrant Officer 3 Joseph Priester was jolted awake at 4 a.m. by the sound of rocket and mortar fire. He sprinted to his OH-58D Kiowa Warrior, a lightly armed reconnaissance helicopter, and took off with his co-pilot from Forward Operating Base Salerno in eastern Afghanistan. They didn't have to fly far. A group of 30 insurgents about 2 kilometers from the base had launched an attack on the coalition base. At one point, Priester landed in the middle of the fight to pick up a wounded American soldier — his left-seater remaining behind so that the two-seat Kiowa Warrior could transport the wounded man back to the base. Priester's response to the 2008 attack was emblematic of many of the missions flown by U.S. helicopter crews in the wars in Iraq and Afghanistan. Many could be accomplished by short dashes by light-lift, maneuverable helicopters. Now, however, recognition is growing in the Pentagon that range and speed could turn out to be paramount in the next conflicts. For years, the Pentagon has been laying the technological groundwork for the possible creation of a multibillion-dollar acquisition program called Future Vertical Lift. Preliminary plans call for the Army to manage development of FVL variants for itself, the Marines and Navy, with the designs founded on a revolutionary propulsion concept still to be decided. The overarching goal would be to double the range and speed of today's helicopters by rolling out conventionally piloted and unmanned versions in the mid-2030s, a schedule that the Army and allies in Congress want to accelerate. At the moment, FVL remains a modestly funded research effort, although in late June the Army announced a “draft” solicitation to industry to get their feedback on a Future Reconnaissance Aircraft Competitive Prototype. The Army wants to have prototypes of an armed reconnaissance rotorcraft (one of two FVL aircraft types it is prioritizing) flying by 2023 in an effort to choose a design that will enter service within a decade. The White House is proposing to spend $125 million on FVL and related efforts in fiscal 2019, a request that is making it through the congressional appropriations and authorization process with minimal adjustments up or down. The FVL initiative appears to be at a crossroads. On one path is a multiservice, multibillion-dollar acquisition program. On the other lies something short of that. The Army, Marine Corps and Navy are in the midst of analyzing their rotorcraft alternatives for the years ahead in an analysis of alternatives, or AoA, that will spill into 2019 and largely determine the path for FVL. Brig. Gen. Walter T. Rugen, who manages the FVL initiative from Joint Base Lewis McChord in Washington state, expresses confidence that the path will be a bold one, with some questions still to be addressed. “We've moved on from the ‘why' question. We're not having to justify why we need Future Vertical Lift. It's how we do it,” he said in a phone interview. I spoke with Rugen, Marine Corps leaders, a member of Congress, former Army helicopter pilots and defense analysts to take the pulse of FVL about this critical crossroads. SCHEDULE On the question of timing, the plan to roll out FVL aircraft in the 2030s has not set well with Army aviation advocates in the Pentagon or on Capitol Hill. One of them is Rep. Anthony Brown, D-Md., a former Army OH-58 pilot whose state is home to the Army's Aberdeen Proving Ground, where rotorcraft research could aid FVL, and Naval Air Systems Command, or NAVAIR, which manages rotorcraft acquisitions for the Navy and Marine Corps. Brown says he was surprised when he was briefed about the timeline by the Army. Plans still call for releasing the FVL request for proposals in 2021, which is itself a two-year slip from the plan as it stood in the fiscal 2017 budget. That release would put the first FVL aircraft in the hands of pilots in the mid-2030s. “I must say my first impression was ‘Man, this is going to take a long time,'” Brown says. Earlier this year, the House authorization subcommittee that Brown sits on told the Army to “weigh speeding modernization and fielding” of weapons, including FVL. Rugen tells me “we have to go faster,” which would mean flying operational FVL aircraft within a decade rather than the mid-2030s. He says accelerating FVL “is being pushed at the highest levels, so we enjoy that priority.” Rugen leads the Cross Functional Team that has been assembled to ensure that all relevant subject matter experts are included in the FVL initiative. He sounds cognizant of the complexities and speckled history of other attempts at large programs serving multiple agencies. “We're focused on accelerating this capability as much as we can, balancing the risks,” he says of FVL. For one, he and others shun the word “joint” in reference to the structure of the FVL program. “If we had a joint program we'd have a joint program office and all that stuff. We don't have that,” he says. On the question of timing, the answers I received from NAVAIR's PMA-276 office, which manages the Marine Corps light-attack helicopters, are strikingly different from those of the Army. “The Marine Corps need is currently unchanged,” PMA-276 said when I asked whether the Marines also would like to see FVL rotorcraft delivered sooner than the mid-2030s. Also, the Marine Corps explained that the “driving factor” in its planning is an aircraft that can carry six to eight passengers and match the V-22 tiltrotors in range and speed to escort them. An open question remains how these divergent visions of timing would translate into budget planning, once the services finish analyzing their rotorcraft futures early next year. Richard Aboulafia, who analyzes military aviation spending for the Teal Group in Virginia, cautions that the Army has only a “small window of time” to get an FVL program funded and moving forward. That's because the Trump administration spike in defense spending would peak in 2019. If FVL is elevated to an acquisition program, the stakes would be enormous. Early plans call for producing a family of aircraft to replace such stalwarts as the Army's UH-60 Black Hawk, the Marine Corps UH-1Y Venom utility helicopter and the AH-1Z Viper attack helicopter. The new aircraft must exceed the performance of those flown by near-peer competitors, meaning China and Russia, which would mean flying about twice as fast and far as most of today's rotorcraft. The foundational propulsion technology has yet to be chosen. Two concepts are facing off against each other under a related demonstration initiative, called the Joint Multi-Role Demonstrator program, with funding tracing back to 2013. Vying are the V-280 Valor tiltrotor built by Bell of Fort Worth, Texas, and the SB-1 Defiant, an unusual helicopter built by Sikorsky and Boeing. The SB-1 team says it is “fighting hard” to fly for the first time by the end of this year. The two concepts could not be more different. The Valor design was partly inspired by the larger V-22 Osprey tiltrotors. The main difference is that the V-22's engines tilt entirely when transitioning between horizontal and vertical flight, whereas just the gearbox on each Valor engine tilts. “V-22 is the number one in-demand VTOL aircraft within DoD because of its speed and range,” says Keith Flail, Bell's vice president for advanced tilt-rotor systems. “We're taking all the knowledge from the Osprey — over 400,000 flight hours — and we've applied that to Valor, a clean-sheet design with today's technology.” SB-1 gets at the range and speed problem another way. Its two coaxial rotor blades are mounted one above the other, and they rotate in opposite directions to prevent clockwise or counterclockwise torque on the fuselage. This strategy eliminates the need for a tail rotor (sometimes called an anti-torque rotor) and frees up space for a pusher prop to add speed and maneuverability. The design is based on Sikorsky's experimental X2 that the company flew in 2008. “Not only does our X2 technology preserve all of the best characteristics of traditional single- or double-rotor aircraft like the Chinook, Black Hawk and Apache, it betters them in some ways. Yet it can still achieve speeds well north of 200 knots to get to the expanded battle space the government appears to be looking at,” says Rich Koucheravy, Sikorsky's business development director. At the moment, it's not clear whether one or both of these approaches will be chosen as the way forward for FVL. The Marine Corps light-attack helicopter office, PMA-276, says the analysis of alternatives is “reviewing multiple aircraft concepts, not just those used for the full scale technology demonstrators.” Perhaps complicating budget matters, FVL is one of six modernization priorities the Army has identified across all domains: air, land, space, cyberspace, electromagnetic spectrum, information and the cognitive dimension. All require significant expenditures. SPEED = REACH The requirements for the FVL aircraft have yet to be written, but the demonstrators are targeting a cruise speed of 230 knots or 425 kph and a range of up to 800 nautical miles or 1,481 kilometers. Rugen rattles off the broad brushstrokes of what rotorcraft experts want: “We're looking for sweeping improvements in our lethality, agility, survivability, sustainability and what we call reach.” “Reach” alludes to a different kind of fight from the counterinsurgency war that Priester, the Kiowa Warrior pilot, was thrown into. In future conflicts, the air superiority that U.S. forces have enjoyed could be contested, Rugen says. In that case, dotting the battlefield with forward operating bases and refueling points for rotorcraft won't be practical. Missions would have to cover greater distances, whether for attack, reconnaissance, transport, medevac or special operations. Speed and range will “get them to the fight rapidly,” Rugen explains. Penetrating sophisticated enemy defenses would be done by teaming rotorcraft with an “ecosystem of unmanned aircraft and modular missiles.” The question is which concept — the coaxial SB-1, the V-280 tiltrotor or perhaps another idea — would be best suited. MANEUVERABILITY Army helicopter pilot Chief Warrant Officer 4 Michael LaGrave, an ex-Kiowa Warrior pilot, says tilt-rotor aircraft “lack the agility at low speed” of traditional helicopters, noting that the Army is the only service that does not operate the Osprey. Bell officials are aware of this perception, and the company has invited current Army aviators to fly its V-280 simulator. Bell's Flail says the V-22 is in fact “incredibly agile” at low speed. “We've been able to do a lot of things with this next-generation tiltrotor to have even greater agility at low speeds,” he says. “As we go through the envelope expansion we will demonstrate that.” Sikorsky and Boeing think they have an edge with an aircraft that traces its heritage to previous helicopters. Looking at the initial FVL description, “we realized that while the Army did want the extended range and speed of a fast vertical lift platform, it did not appear they were willing to sacrifice much in terms of low-speed hover and performance in the objective area,” says Sikorsky's Koucheravy. That's why Sikorsky and Boeing based their SB-1 Defiant design on the X2, which was a compound helicopter, meaning it combined the propulsion of rotors and propellers. COST The Army wants this new generation of rotorcraft to cost about the same to operate and maintain as the latest variants in its fleet, from the UH-60V Black Hawks to AH-64E Apaches. “I'll echo what Gen. [James] McConville, our vice chief of staff, said,” says Rugen. “We're looking at the price point that we have now for procurement and flight hours as our targets.” Aboulafia of Teal Group doesn't believe it's realistic to think that the FVL aircraft will cost the same as today's versions. “I don't think you can get this incredible capability for the same or anything like the same price,” he says. Given the costs, funding uncertainty of FVL and the history of multiservice programs, Aboulafia is skeptical about the future of FVL. He thinks it makes little sense to try to compress diverse demands into one program. “Rather than building one giant mega-
cathedral, how about just a small village church?” If he were the Army or Marines, he'd think about a “fallback” option of continuing with “upgrades or existing new-build helicopters.” “I tell everybody who will listen,” Aboulafia quips, “be prepared for a future of ‘Black Hawk-N' models, ‘Apache-G' models or ‘Chinook-Q' models, take your pick.” Aboulafia notes that the Army is continuing to make incremental upgrades to its existing fleet. The service continues to buy the latest version of the Apache, the AH-64E and the UH-60M while upgrading UH-60L Black Hawks with a digital cockpit as UH-60Vs. The Army also has an Improved Turbine Engine program underway to replace the engines in its Black Hawks and Apaches with more powerful, fuel-efficient turbines. Meanwhile, the Marine Corps is continuing to procure the UH-1Y Venom and AH-1Z Viper utility and attack helicopters. PRIORITIZING DESIGNS FVL rotorcraft are classified under “capability sets” — two Light variants, two Medium variants and two Heavy variants. These capability sets encompass the variety of roles Army and Marine helicopters fulfill, from light attack and reconnaissance to airborne assault and heavy lift missions. In March, Army aviation leaders, including Rugen, indicated the service would focus on two FVL variants — a light future reconnaissance attack aircraft (the subject of the draft solicitation) and a long-range assault aircraft similar to the medium-lift SB-1 Defiant or V-280 Valor rotorcraft now progressing through JMR-TD. I had heard speculation that the Army wants an armed scout to be the first FVL variant fielded. I asked Rugen if that was the plan, and he says that's “yet to be determined.” Sikorsky thinks that's a real possibility and is offering its S-97 Raider for the future reconnaissance role. Not part of the current demonstration program, Raider was developed for the Army's Armed Aerial Scout program (canceled in late 2013) to replace the OH-58D. The S-97 has the same coaxial rotor configuration as the SB-1 Defiant. It remains unclear how the Marine Corps would fit into the FVL initiative, given the statement from PMA-276 that it still likes the 2030s date and that the “driving factor” is not a light FVL but one capable of carrying six to eight passengers and escorting V-22s. At the end of June, Marine Corps sources confirmed this, explaining to me that the service's “primary interest” is in a long-range assault aircraft, “not in an FVL Light/armed reconnaissance-attack aircraft.” They add that the Marine Corps and Army continue to explore “a potential for a joint program on the Future Long-Range Assault Aircraft.” Aboulafia of Teal Group contends that Bell's tilt-rotor V-280 is more suited for the type of missions the Marine Corps performs while Sikorsky-Boeing's SB-1 may be more appropriate for Army missions. If FVL is to go forward, “each service should pick one of the aircraft now in development for JMR TD and get going.” Staff reporter Tom Risen contributed to this report. https://aerospaceamerica.aiaa.org/features/fighting-for-future-vertical-lift

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  17 janvier 2020 | International, Aérospatial

  US Defense Department Awards C3.ai $95M Contract Vehicle to Improve Aircraft Readiness Using AI

  Redwood City, CA – January 15, 2020 – C3.ai, a leading enterprise artificial intelligence (AI) software provider for accelerating digital transformation, today announced a five-year agreement with the Defense Innovation Unit (DIU) to deliver C3 Readiness for Aircraft™ an AI-based software application that increases the readiness and availability of aircraft to accomplish their missions. Predicting an aircraft subsystem's risk of failure is essential to the U.S. military's fleet readiness. By using machine learning algorithms to monitor high-priority subsystems for risk of failure and predict the requirements for parts at air bases and depots, C3 Readiness for Aircraft shifts the paradigm from reactive to predictive maintenance. C3 Readiness for Aircraft provides a near real time view of aircraft health for each individual tail number. Using C3 Readiness for Aircraft, maintainers can be made available and prepared for work, and operations personnel can ensure that the right parts are available at the right time and at the right locations. With this application, organizations can substantially expand the use of existing aircraft and reduce the cost and time associated with unexpected maintenance. “Each hour an aircraft is grounded costs taxpayers tens of thousands of dollars – and approximately $292 billion of the Pentagon's annual budget is spent on operations and maintenance costs ,” said Ed Abbo‚ President and CTO, C3.ai. “Given these numbers, even a fractional increase in aircraft mission capability can save billions. We look forward to building on our initial success delivering solutions that extend the DoD's competitive advantage and support its ambitious plans to implement artificial intelligence at scale.” Defense Innovation Unit (DIU) is the DoD organization based in Silicon Valley charged with accelerating the adoption of innovative commercial technologies into the U.S. military to strengthen the nation's security. DIU connects customers with leading technology companies to prototype, transition, and field capabilities within 36 months. DoD has made it a priority to address readiness in the FY2020 Budget so that forces meet a minimum standard. Applying AI techniques helps the DoD achieve this objective rapidly in a cost-effective manner. C3.ai has repeatedly demonstrated its capabilities to DIU to significantly improve readiness for several Air Force units. As a result of a number of successful US Air Force implementations, including the E-3 Sentry (AWACS), C-5 Galaxy, F-16 Fighting Falcon, and F-35 Joint Strike Fighter Lightning II aircraft, and expansion to Army Aviation platforms such as UH-60 Blackhawk and AH-64 Apache helicopters, DIU sponsored the current up-to-$95M agreement that allows all the Services and other federal agencies to use C3.ai's software for aircraft predictive maintenance. C3 Readiness for Aircraft operates on the C3 AI Suite™, an integrated software platform that enables organizations to rapidly design, develop, and deploy enterprise-scale AI applications on any public or private cloud environment. The C3 AI Suite allows the DoD to integrate and unify large amounts of fragmented and disparate data, and make those data available for use by machine learning algorithms for insights that improve operations and provide situational awareness. C3.ai's applications are configurable for a variety of capabilities beyond AI predictive maintenance including intelligence data fusion, clearance adjudication, insider threat, improved logistics, supply risk identification, and AI-based operational support. About C3.ai C3.ai is a leading AI software provider for accelerating digital transformation. C3.ai delivers the C3 AI Suite for developing, deploying, and operating large-scale AI, predictive analytics, and IoT applications in addition to an increasingly broad portfolio of turn-key AI applications. The core of the C3.ai offering is a revolutionary, model-driven AI architecture that dramatically enhances data science and application development. Organizations such as Royal Dutch Shell, ENGIE, 3M, and Enel are currently leveraging C3.ai's enterprise software for greater efficiency, productivity, and reliability. Contact: C3.ai Public Relations: April Marks 650-503-2200 pr@c3.ai View source version on C3.ai: https://c3.ai/us-defense-department-awards-c3-ai-95m-contract-vehicle-to-improve-aircraft-readiness-using-ai/ https://www.epicos.com/article/531552/us-defense-department-awards-c3ai-95m-contract-vehicle-improve-aircraft-readiness