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BERLIN (Reuters) - Germany's planned 4 billion euro ($4.71 billion) tender to buy new heavy-lift helicopters that was due to be issued this autumn will be delayed, according to an official document seen by Reuters on Wednesday. The planned start of the tender by the end of September would be “delayed until further notice,” the office in charge of military procurement said in a letter to several defense firms. The procurement office did not give a reason for the delay or say when the tender would be launched. “As soon as a new date is fixed, we will inform you immediately”, it said in the short letter. The Bundeswehr, the German military, is due to receive 45 to 60 heavy-lift transport helicopters in the coming decade. Defence Minister Ursula von der Leyen earlier indicated the tender could be delayed as financing of the project was not yet secured in the ongoing parliamentary budget negotiations. Von der Leyen, a member of Chancellor Angela Merkel's conservatives, is pushing for steeper military spending hikes, but she faces resistance from the Social Democrat-led finance ministry, which prefers more spending on infrastructure and digitalization. Reporting by Sabine Siebold; Writing by Michael Nienaber https://www.reuters.com/article/us-germany-defence/germany-delays-tender-for-military-helicopters-document-idUSKCN1M6110

By: Valerie Insinna WASHINGTON — The U.S. Air Force is making changes to the way it sustains the B-1B Lancer bomber and C-5 Super Galaxy cargo plane, moving to a maintenance approach that will allow it to use data analytics to predict problems, the acting head of Air Force Materiel Command said. Both the B-1 and C-5 fleets transitioned to a conditions-based maintenance model last month, Lt. Gen. Robert McMurry, commander of the Air Force Life Cycle Management Center, told Defense News in a Sept. 18 interview. “Given the aging fleet situation that we have, we probably need to be using data better to take care of it — which is a drive toward what most everyone right now is saying is the right way to manage fleet sustainment, which is through condition-based maintenance and data analytics,” he said. “So we're trying to bring that on.” The approach — which involves using algorithms to predict the need for repairs rather than waiting for a part to break — is a standard practice in the commercial airline industry to help reduce maintenance-related delays or cancellations, but has been less common in the Air Force. AFMC determined it needed to make a greater push toward conditions-based maintenance as a result of servicewide reviews triggered by rising concerns about the number of aviation-related mishaps. The first review, directed by Air Force Chief of Staff Gen. Dave Goldfein, involved a one-day standdown that would give flying and maintenance units a chance to communicate potential safety concerns up the chain of command. Gen. Ellen Pawlikowski, then the head of AFMC, also directed the organizations under her command, like the Air Force Sustaiment Center, to evaluate its own data. The reviews have since concluded, with the Air Force finding “two systems ... where high risk was accepted,” said McMurry, noting that “operational security does not allow us to identify them.” “Our process is dealing with those responsibly,” he added. The B-1 and C-5 were chosen as pilot programs for the conditions-based maintenance approach because they are sustained by airmen and have older, relatively small inventories, making for a more manageable data set. But the planes have something else in common — a recent history of well-publicized mishaps. The C-5 has sustained a number of nose landing gear malfunctions that led to a standdown and maintenance assessment in 2017. But despite a fix being put in place, there have still been problems with the gear, such as a March 2018 event where one C-5 landed on its nose at Joint Base San Antonio-Lackland, Texas. Meanwhile, the B-1 fleet was temporarily grounded in June after a safety investigation board found problems with ejection seat components while investigating a May 1 emergency landingwhere the ejection seats did not deploy. Full article: https://www.defensenews.com/digital-show-dailies/air-force-association/2018/09/25/air-force-looks-to-data-analytics-to-help-solve-b-1-c-5-maintenance-challenges/

By: David B. Larter The Navy has to get software updates and patches to the fleet within days if it's going to win in the future, the Department of the Navy's acquisition boss said Sept. 25 at Modern Day Marine. James Geurts, assistant secretary of the Navy for research, acquisition and development, said the fleet has been working on the rapid development of software to get needed upgrades to the ships ahead of pier-side availabilities, a pace he said was too slow for the modern battlefield. “We recently did one of our proof-of-principles to say: ‘How do you take ... software, get it system certified, get it cyber certified then get it out over the airwaves, uploaded on to a ship and into the combat system in 24 hours,” Geurts said. “My view is unless we get to the point where I can identify a software requirement, whether it's an [artificial intelligence] algorithm or something, find the solution, get it checked out on the network, give it whatever cyber-proofing it needs and get it into the fight in less than a week, we are not going to be successful in the long run.” The Navy has increasingly found that its current systems are capable of adjusting to new threats through software upgrades rather than buying new systems and installing them, a time-consuming and cripplingly expensive process that has been the norm in years past. Geurts said the Navy had to have a software architecture that was amenable to rapid upgrades so that developers would not need to re-test the underlying architecture each time a patch or fix is uploaded. Furthermore, the service also has to develop cyber security standards that don't just weigh whether or not something can be compromised but begin to think of it more in terms of risks associated. “The answer isn't yes or no, it's ‘Commander here is your risk.' And then weigh the risk of doing that [upgrade] versus a potential cyber impact so that commanders can make reasonable command decisions. Because there is always a risk to not doing something. We often talk about the risk of doing something, we don't often talk about the risk of not doing it.” Geurts told a gaggle with reporters after the talk that he was not talking about uploading whole new programs that sailors might be unfamiliar with but more iterative upgrades. "Don't take that to an extreme to where we will load on something that nobody has ever seen before, but it could be that there is a particular issue or new need, and you can envision us testing and training that shore-side, making sure it's right – we don't want to wait for the ship to come home we could potentially blast that out [to the fleet.]" The Navy is also working more with having digital doppelgangers of its combat system on board its ships so that new technologies can be tested by the crew and commanders before its uploaded into the main combat system, a hedge against reaping unintended consequences by uploading a feature or patch without knowing exactly how it will fit into the ship's systems. "The other thing we are doing a lot with is digital twins, where [the ship] might have the combat system that it's fighting with as well as a digital twin,” Geurts explained. “So you might be able to upload that new feature in the digital twin so you could have both, then it's up to the commander whether it's something you adopt or not.” https://www.c4isrnet.com/digital-show-dailies/modern-day-marine/2018/09/25/on-the-new-battlefield-the-navy-has-to-get-software-updates-to-the-fleet-within-days-acquisition-boss-says

By Barbara Starr and Zachary Cohen, CNN Washington (CNN)The US Marine Corps' stealth F-35B Lightning fighter jet could fly its first combat mission within days, according to several US defense officials, who told CNN that the fifth-generation aircraft are currently aboard the USS Essex amphibious assault ship and should soon be in a position to conduct airstrikes over Afghanistan. The USS Essex has already sailed from the Gulf of Aden into the North Arabian Sea and is expected to move into the Persian Gulf in coming days, one official said. F-35 pilots have been conducting intelligence and surveillance missions in Somalia while on standby to conduct air support for US troops on the ground there if needed. While available for support, the advanced fighter jet was not used in an airstrike over Somalia on Saturday that killed 18 militants after US and local forces came under attack. In May, Israel Defense Forces said they were using their version of the F-35 in operational missions, striking at least two unspecified targets in the region. Full article: https://www.cnn.com/2018/09/25/politics/us-f-35-combat-missions

ORLANDO, Fla., Sept. 25, 2018 /PRNewswire/ -- Necessity sparks invention at the Innovation Center, now open at Lockheed Martin's (NYSE: LMT) Missiles and Fire Control (MFC) facility in Orlando, Florida. In this 6,500-square-foot space, employees are empowered with the technology and tools to develop creative solutions to complex problems. The company expects it to aid in the creation of new patents and the win of new multimillion-dollar contracts. Lockheed Martin IC-Opening-Sept 2018 "Innovation is our 'day job' — it is core to who we are and everything we do," said Frank St. John, executive vice president at MFC. "This facility gives employees the means to bring ideas from our unlimited imaginations to life. The result of which will help us invent technologies to solve previously unsolvable problems." Five specialized labs, a next-generation video conference capability and an interactive lobby serve more than 5,000 employees and counting amidst a hiring surge at the southwest Orlando facility. Virtual reality, robotics, computer-simulated environments, 3-D printing and more are available at workers' fingertips to encourage new ways of thinking and approaching business needs. The space will also host monthly hands-on demonstrations as well as live webcasts across the business. This is the second of its kind at MFC. In less than a year's time, the Innovation Center in Dallas, Texas, has helped secure millions of dollars' worth of captured programs. "The Innovation Center is a destination for our program teams to explore what's possible with the use of high technology," said Tom Mirek, vice president deputy of engineering and technology at MFC. "Like we already have in Dallas, we're going to recognize Orlando's Innovation Center for being a vital resource to the success of our company for years to come." Orlando's Innovation Center is comprised of five unique labs: The Application Research Experimentation & Simulation (ARES) facility allows teams to use their own computing environment and applications to conduct events on a rapidly reconfigurable 12-screen hyperwall. The Genesis Lab is where ideas are born, and one can incubate and develop concepts in a creative, resourceful environment — 24 hours a day, seven days a week. Employees have access to augmented and virtual reality, small robotics, Arduino, Raspberry Pi, high-powered computing, and 3-D printers. The Iris Lab offers an indoor robotics test bay for safe and controlled training, experiments, and research. The Engineering Visualization Environment Lab and its animators take complex ideas and bring them to life through feature-film quality renderings. The Polaris Lab employs sensor, optics and laser testing that provides rapid response for employees and program development. This is a fire-control-focused lab that can benchmark new technology. Opening early 2019. Employees in Orlando lead the aerospace and defense industry in their experience with technologies related to electro-optics, millimeter wave radar, image and signal processing, advanced materials, electronic packaging, and large-system integration. About Lockheed Martin Headquartered in Bethesda, Maryland, Lockheed Martin is a global security and aerospace company that employs approximately 100,000 people worldwide and is principally engaged in the research, design, development, manufacture, integration and sustainment of advanced technology systems, products and services. This year the company received three Edison Awards for ground-breaking innovations in autonomy, satellite technology and directed energy. SOURCE Lockheed Martin https://news.lockheedmartin.com/2018-09-25-Innovation-Center-Opens-at-Lockheed-Martin-in-Orlando

By: Brian Witte, The Associated Press ANNAPOLIS, Md. — The U.S. Naval Academy's cyber operations program has been formally accredited. The academy said Friday the program was accredited recently by ABET, a leading nonprofit accrediting agency. Three other universities also were accredited under the new cybersecurity criteria: the U.S. Air Force Academy, Towson University and Southeast Missouri State University. A cyber operations major was established in 2013 at the academy. The academy also requires all midshipmen to take a cyber course in both their freshmen and junior years — the first undergraduate school to have mandatory cyber classes. There were 27 midshipmen who majored in cyber operations in the class of 2016. That has grown to 110 in the class of 2021. The academy is building a $106 million cybersecurity building. https://www.navytimes.com/news/your-navy/2018/09/24/naval-academys-cybersecurity-program-receives-accreditation

By: Jeff Jeong SEOUL — Thousands of South Korean jet fighters, helicopters, warships and missile systems will be fitted with sophisticated identifications technologies by the mid-2020s under a major weapons upgrade program, according to the military and defense companies. For the $2.2 billion deal to switch the decades-old Mode-4 Identification Friend or Foe, or IFF, system to the latest Mode-5, South Korea's arms procurement agency has started issuing a request for proposals. “The number of equipment eligible for the Mode-5 upgrade account approximately 2,000 related to 70 weapons systems,” according to a spokesman for the Defense Acquisition Program Administration. “The request for proposals will continued to be issued separately by the types of weapons systems over the coming weeks.” The upgrade program is in line with the transfer of IFF systems to the Mode-5 version by the U.S military, as the South Korean military conducts key operations with U.S. forces on the Korean Peninsula under the authority of the Combined Forces Command. By 2020, all NATO nations are required to introduce the Mode-5 systems, using advanced cryptographic techniques to secure their systems against electronic deception by adversaries. “This is a huge program as for the numbers and budget, and is strategically important to upgrading the battlefield capability of the South Korean military and its joint operations with allied forces,” said Kim Dae-young, a military analyst at the Korea Research Institute for National Strategy. “The new encrypted system will allow South Korean and its allied troops to work safely together, reducing the risk of friendly fire incidents, and it will also offer commanders a better view of the battlefield,” Kim added. IFF works by sending coded signals, with equipment on friendly planes and ships able to receive and instantly decode the encrypted challenge message, then send the appropriate response to identify themselves. Three South Korean defense manufacturers are competing for the IFF upgrade contract by teaming up with foreign IFF developers. They are Hanwha Systems, teaming up with U.S. company Raytheon and Hensoldt of Germany; LIG Nex1, with Italy's Leonardo and Thales of France; and Korea Aerospace Industries, joining hands with BAE Systems of the United Kingdom. Unlike the installation of the Mode-4, the technologies of which belong to foreign IFF makers, domestic companies are involved in the Mode-5 systems development and will locally produce the equipment for cost-effectiveness and sustainable integrated logistics support, according to Defense Acquisition Program Administration officials. Hanwha Systems, a leading defense electronics company formerly known as Samsung Thales, claims it has the advantage of having know-how related to IFF integration and design. “Our company was in charge of almost all Mode-4 upgrade programs in cooperation with foreign partners,” said Yoon Seok-joon, a consultant with Hanwha Systems' avionics business team. “Through the experience, we have much better knowledge of IFF design and functions than other local competitors. This is a clear advantage.” LIG Nex1, a precision missile developer, formed a task force in 2016 for Mode-5 upgrade work to seek related technology for localization. As a result, the company successfully localized a Mode-5 system for its KP-SAM Shin-Gung (or Chiron) shoulder-launched surface-to-air missiles with the help of Thales, which is contracted to provide Mode-5 technologies for ground weapons systems. “Based on the successful development of a Mode-5 device for Shin-Gung, we're now able to independently develop Mode-5 equipment for other weapons systems, such as Hybrid Biho air defense system; Chunma short-range surface-to-air missile; and TPS-830K low-altitude radar,” said Park Jung-ho, program manager of LIG Nex1's Mode-5 upgrade team. To help facilitate the certification of its Mode-5 systems by the U.S. Defense Department, LIG Nex1 recently signed an agreement with the U.S. defense system certification contractor KBR. Korea Aerospace Industries is expected to win contracts for Mode-5 devices to be fitted on advanced aircraft, including F-15K fighters, T-50 trainer jets and Surion utility helicopters. KAI develops the Surion platform. “We own thousands of platforms around the world with this product, so we have lots of experiences in the U.S. and other countries as well as with this IFF piece of equipment,” said Rob Peer, president of BAE Systems in Korea. “It's advanced technology with low weight, low power and cost effective. All of those things make it very effective.” Peer stressed that he feels BAE Systems' Mode-5 is the best fit for the systems of the F-35 fighter jet, which South Korea is to deploy in the coming years. https://www.defensenews.com/global/asia-pacific/2018/09/24/south-korean-military-to-upgrade-friend-or-foe-id-capability

Helmoed-Römer Heitman, Pretoria Saudi Arabia is considering investing in the defence industries of South Africa, the chief executive of Saudi Arabian Military Industries (SAMI) confirmed during the African Aerospace and Defence (AAD) exhibition. Dr Andreas Schwer's comments were made following an earlier vist by SAMI representatives to South Africa to discuss investment in national defence organisation Denel. SAMI's interest has centred on munitions, guided weapons, artillery systems, and optronics and the state-owned organisation has indicated that it would consider establishing a research and development centre in South Africa. SAMI's expression of interest coincided with comments from Denel acting chief executive Mike Kgobe who indicated that his company is actively seeking equity partners. https://www.janes.com/article/83303/sami-looks-to-investment-in-south-africa

WASHINGTON — News that SAIC would buy Engility was just the latest in a recent string of acquisitions among the professional services firms. But if you ask the CEO of SAIC, Tony Moraco, unlike some of the company's peers this was not transformational. This was instead a merging of two complementary businesses. In his words, “a momentum builder, as we are stronger together in the marketplace.” It's also the next phase for a company that technically formed five years ago, with the split of the $11 billion legacy company with the same name. Defense News sat down with Moraco to see how the acquisition fits into SAIC's future strategy, and how far the company has come since gaining independence. About a year after SAIC split from Leidos, I asked you about your vision for the company. And you said to return to an $11 billion company. How does this acquisition fit into your vision for SAIC these days? The Engility acquisition is very much consistent with our current strategy. It is not a deviation or a reset, as perhaps some of the other major transactions have been for some of our peers. But it really is about the theme of being stronger together, with [particular] compatibility of the intelligence community ... and also attributes in space market segments that we think we can both serve better. For us, this is opening market access to channels that we didn't have. It's momentum building, a vision and a strategy that was five years in the making, and it's a continuation of that strategy going forward. So have you been looking for an extended period of time? And why Engility specifically? We consistently look at the market. We were not going to be a high-volume buyer, but more selective. The Scitor [acquisition] was more than three years ago. But we felt that we had a good position in the marketplace to grow organically. And we proved very strong performance over five years and since [that last acquisition of] Scitor. And then we've looked at many deals, large and small, to see what makes the most sense to us, staying true to our strategy. The attraction with Engility was probably first sparked by the multi-intelligence agency portfolio that they have. Instead of buying a number of smaller concentrated firms, we could get a couple agencies in one larger deal. The company is large enough, they have a mature system. Again, in contrast to perhaps some of the small businesses, we think it has been through its own cultural shift to align very much to ours. Also of interest is the space market. Today, with denied access and with the threats that we have, space is becoming a much more serious domain. The U.S. wants to invest more in it for a range of reasons. And when we think about space, it does cross, in fact, with the intelligence community, the defense sector with Air Force and the other services, and then also the civilian agencies with NASA, [and the National Oceanic and Atmospheric Administration]. As that market evolves, I think the U.S. government will be a principal customer. I believe that the commercial space entities will find a way where they'll also require key outsourced space services just as the government had. So for a single transaction at scale where we could in fact use our equity, [and face] probably fewer buyers, filling three or four of our strategic initiatives in market access and in capabilities — we felt it was worth a serious look. But it's not just about space and intel. Defense will still be the largest part of our portfolio — 55 percent after we close [from 61 percent]. With the benefit of having the broader diversification in intel and federal civilian agencies, that serves all of our customers from a technology transfer perspective. We've seen an interesting transition in the market, where the big primes are shedding portions of their services segments. Have we officially returned to the days when manufacturers focus on platforms only and leave the rest to the professional services companies? I think we [for a period of time] faced a market that was uncertain. Our customers were reprioritizing their mission areas, and the industry was doing the same — looking at where they were going to focus their precious dollars, identify businesses they were going to protect, and areas that maybe weren't core. Then as the market started to improve and move away from cost reductions to protect margins to having some cash and some flexibility, you started seeing more portfolio shaping from the larger players. It's not just about scale. There's [a focus on] the diversification because as you know, the whole business is based on past performance and on what qualifications you have in people and in contract vehicles; if you have a broader base concentrated in a few key areas, your ability to compete and win in those domains is improved. There are a lot of technologies that are more heavily influencing the battlefield — whether ISR, electronic warfare, even still cyber, which is evolving. It seems those areas don't fit quite as neatly in one model or the other. We've been around. It's not a body shop service that we run. It is services and solutions. But technology integration is a direct link to the customer's demand for modernization, the interest in innovative solutions from nontraditional players, the ability to field capabilities faster in a much shorter development cycle, and that leads you to a technology integration model that we have. It allows us to take mission understanding and translate requirements into capability needs. So we can integrate, we can innovate with the technology and we can implement the solutions, which is fundamentally what the customer needs to migrate them from a current state to a future state. But we're seeing more and more opportunities through the [Defense Innovation Unit], the [other transaction authorities], and other contract vehicles that provide a little more rapid prototyping flexibility. SAIC bid for the Marine Corps Amphibious Combat Vehicle and is now working to compete for the Army's Mobile Protected Firepower program.How does that all fit into the broader strategy? We do see it as a viable area, and I would characterize it as the next tier of complex technology integration, system integration. It's an extension of our command-and-control and ISR integration. I recall we pushed through 30,000 MRAP systematic build packages. That kind of integration of subsystems into a platform is what we felt was a baseline business that we could look to expand; and as the customer looked at, in this case, starting with Assault Amphibious Vehicle. Not a start-from-scratch build — the survivability upgrade really was around the armor, the underbelly and then your armaments protecting the vehicle. And then the related mobility requirements to change out transmissions and engines to support that extra weight. We felt that those subsystems and our mission knowledge afforded us the ability to extend to a little more of the physical platform itself. We're doing work on the next-gen combat vehicle. And we're using a services model for MPF. Again, nondevelopmental, major integration of existing platforms for rapid field development. That fits well into our technology and integration model. We see the ground vehicles and perhaps maritime [areas] as one that was probably more approachable versus, say, airframes. Modernization of aircraft has its own barriers of entry of getting flight readiness and the like. We've extended our test-equipment knowledge to partnering with Lockheed on the propulsion system for torpedoes, for example. So we're just looking for selective areas to do more complex system integration under this broad technology integration umbrella. It just happens to be bigger subsystems. Complex system integration sets us apart from some of the current peers in the marketplace right now. But we're selective in what we go after. How hard of a hit was the loss of the Marine Corps Amphibious Combat Vehicle in moving forward with that? It's disappointing. We try to be practical and objective about our market position. It's an alternative model. It's still early in the life cycle. But I think that as we see different opportunities, we learn from it as the customers get more comfortable. So yes, disappointing on ACV, but at the same time we learned a lot from it and I think the customer ultimately got a very good result by having a competitive phase. And we think that the Army [with MPF] will be as successful and come up with [the] best solution if they can maintain a competitiveness early in the process. When the split first happened, you and Leidos were generally two different companies. With this acquisition, and with the Leidos acquisition from Lockheed, have you all started to mirror each other more? I think we may be looking a little more alike. Five years ago I did not expect it. I think we had very clear strategies that [we] were intending to diverge, and therefore we did not have any formal noncompetes. We were looking at the services business model, and Leidos was looking to do more system development. I think their execution of that didn't play out as fast as they'd like. Roger [Krone, Leidos CEO], buying back in the services, more of the information system side, was a bit of a surprise. So if anything, they came back towards us versus us changing direction. So I'd say they probably navigated slightly different than expected. But even today we're still two different companies. We're still very focused on letting our investors and customers know what we do, and Leidos still has a pretty diverse portfolio from health systems and some engineering services. We compete in similar subsegments but not in all. We're also organized very differently, we go to market differently. When the deal closes, where does that put your total revenue at? Right around $6.5 billion. You told me you wanted to get back to $11 billion. Should we expect more? No, not right away. That was very tongue in cheek at the time. You knew I'd remember though. Oh, I know. I remember it too, actually, because we laughed. There are lots of things we can do, but I felt very comfortable then and still do that we've got a great future and can grow the business organically as well as through acquisition. But it's not to chase the size. It really is about the market leadership. Running good margins and providing good mission capabilities for our employees. I think our market is still very motivated by mission. Our employees are very motivated to serve in different capacities whether it's in uniform or not. https://www.defensenews.com/interviews/2018/09/24/saic-boss-tackles-engility-acquisition-space-market-and-revenue-goals