Panel of three-star generals to lead military training modernization

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  September 28, 2018 | International, Aerospace

  LOCKHEED MARTIN SELECTS HARRIS CORPORATION TO DELIVER F-35'S NEXT GENERATION COMPUTER PROCESSOR

  Supply Chain Competition Continues to Reduce Cost and Enhance Capability FORT WORTH, Texas, Sept. 27, 2018 /PRNewswire/ -- Lockheed Martin (NYSE: LMT) has selected Harris Corporation (NYSE: HRS) to develop and deliver the next generation Integrated Core Processor (ICP) for the F-35 fighter jet. The Lockheed Martin-led competition within the F-35 supply chain will significantly reduce cost and enhance capability. The F-35's ICP acts as the brains of the F-35, processing data for the aircraft's communications, sensors, electronic warfare, guidance and control, cockpit and helmet displays. "We are aggressively pursuing cost reduction across the F-35 enterprise and, after conducting a thorough review and robust competition, we're confident the next generation Integrated Core Processor will reduce costs and deliver transformational capabilities for the warfighter," said Greg Ulmer, Lockheed Martin vice president and general manager of the F-35 program. "The next generation Integrated Core Processor for the F-35 will have positive benefits for all customers in terms of life cycle cost, capability, reliability and more." The new Integrated Core Processor is a key element of the planned "Technology Refresh 3" modernization that takes advantage of fast evolving computing power to ensure the advanced F-35 remains ahead of evolving threats. Additional elements in the tech refresh include the Panoramic Cockpit Display Electronic Unit and Aircraft Memory System, which were also recompeted and awarded to Harrislast year. Reduce Costs, Increased Performance The Harris-built ICP will be integrated into F-35 aircraft starting with Lot 15 aircraft, expected to begin deliveries in 2023. The next generation ICP system is targeted to generate the following results compared to the current system: 75 percent reduction in unit cost 25 times increase in computing power to support planned capability enhancements Greater software stability, higher reliability, and increased diagnostics resulting in lower sustainment costs An Open System Architecture to enable the flexibility to add, upgrade and update future capabilities "The new F-35 ICP will pave the way for system scalability well into the future," said Ed Zoiss, president, Harris Electronic Systems. "Open systems are the future of avionics and Harris has invested substantial R&D to deliver more affordable and higher performance solutions than would have been possible using proprietary technology." Supply Chain Optimization The ICP selection comes on the heels of Lockheed Martin's selection of Raytheon for the Next Gen Distributed Aperture System, which will reduce lifecycle costs by more than $3 billion, enhance reliability and increased capability. "With production ramping up and the operational fleet growing fast, we are looking at every layer of our global supply chain to find opportunities to increase capacity, reduce production and sustainment costs, improve parts reliability and enhance capabilities," said Ulmer. In addition to competition, the company is transitioning several F-35 suppliers to longer term Performance Based Logistics contracts to enhance parts availability and reduce sustainment costs. Previously under annual contracts, the new 5-year PBLs allow each supplier to make longer term investments and actions to reduce costs and improve efficiencies. With radar evading stealth technology, advanced sensors, enhanced weapons capacity, supersonic speed and superior range, the F-35 is the most lethal, survivable and connected fighter aircraft ever built. More than a fighter jet, the F-35's ability to collect, analyze and share data is a powerful force multiplier enhancing all airborne, surface and ground-based assets in the battlespace and enabling men and women in uniform to execute their mission and come home safe. For additional information, visit www.f35.com. 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. About Harris Corporation Harris Corporation is a leading technology innovator, solving customers' toughest mission-critical challenges by providing solutions that connect, inform and protect. Harris supports government and commercial customers in more than 100 countries and has approximately $6 billion in annual revenue. The company is organized into three business segments: Communication Systems, Space and Intelligence Systems, and Electronic Systems. Learn more at harris.com. SOURCE Lockheed Martin Aeronautics Company https://news.lockheedmartin.com/2018-09-27-Lockheed-Martin-Selects-Harris-Corporation-to-Deliver-F-35s-Next-Generation-Computer-Processor

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  November 6, 2024 | International, Land, C4ISR, Security

  Trump's US election win may bring NATO members' defense spending back into focus

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  October 30, 2020 | International, C4ISR

  In a COVID-19 world, system integration is the best approach

  Lt. Gen. David Mann (ret.) and Maj. Gen. Francis Mahon (ret.) As COVID-19 is adding “social distancing” and “PPE” to our everyday lexicon and making handshakes a thing of the past, Project Convergence's experimentation with artificial intelligence and integration is moving the U.S. Army closer to the realization that “any sensor, any shooter — or any sensor, best shooter” applies to more than solely the air and missile defense community. Project Convergence is validating the path to success in future combat operations by integrating capabilities of many systems and not solely hanging our hopes on a new, best artillery or aviation or maneuver system. Concurrently, it is validating the need for the Army Integrated Air and Missile Defense system, or AIAMD. “See first, understand first, act first, and finish decisively” was the mantra of Army transformation in the early 2000s, and here we are, 20 years into the 21st century, with AIAMD modernization efforts on the cusp of achieving the first two elements of that axiom — which enables the last two. AIAMD's development has not been easy, but it is essential, as our adversaries have not taken a tactical pause. North Korea is now a nuclear state with intercontinental ballistic missiles and, as recently noted on Oct. 10, other missile initiatives underway. China is creating barrier islands, improving its air and missile forces, and building a carrier fleet. Russia has optimized Syria and Crimea as proving grounds for its capabilities and forces while regularly probing NATO and North American airspace. Iran has fired ballistic missiles against undefended U.S. bases, demonstrated technical and tactical prowess by executing an integrated and complex armed unmanned aerial system and cruise missile attack against Saudi Arabia, and provided nonstate actors an expanded poor man's air force. Cyber, too, is becoming “mainstream” among our adversaries, and two of our near peers are developing hypersonic weapons, as witnessed in Russia's recent Zircon cruise missile test. As the U.S. Army, and the military at large, look to the future, all acknowledge integrating systems achieves a synergistic effect from our limited number of sensors, weapon systems and munitions. Integration closes gaps and seams, and enables the timely application of fires while reducing the cost-per-intercept dilemma. Closed architectures are a thing of the past, as are stovepiped systems. We must leverage each other's data and information and apply the best available weapon to counter threat activities or inflict maximum damage upon an adversary. If the Army's Lower Tier Air and Missile Defense Sensor can provide an accurate launch point for a ballistic missile, shouldn't the Army's Precision Strike Munition or other long-range fires capability leverage this data in real time for an offensive strike? If an F-35 fighter jet detects aerial threats it cannot counter, shouldn't it pass this data via a joint architecture so the joint family of systems can defeat those threats? Project Convergence is endeavoring to expand integration and advance operating concepts to leverage all possible capabilities. It is a logical extension of a key AIAMD modernization effort — the Army's IAMD Battle Command System, or IBCS — which demonstrated impressive capabilities during a recent limited-user test. Patriot batteries executed near-simultaneous engagements against ballistic missiles and low-altitude cruise missiles, while using only Sentinel targeting data provided to IBCS. Multiple capabilities operating as an integrated system — leveraging one element's information and another's lethality to defeat a complex and integrated attack — represents true integration. The Missile Defense Agency's integration efforts with the Patriot and the Terminal High Altitude Area Defense systems, and its recent successful flight test, also demonstrate the power of an integrated approach. Specifically, this capability enables earlier engagements, expanded battlespace, an increase in defended area, flexible firing doctrines, interceptor optimization and the tightening of operational seams. We cannot afford to slow these efforts or take our eye off the objectives and capabilities these programs will deliver. IBCS is approaching a key milestone decision, which will enable low-rate production to begin, execute additional development and operational tests, and field an initial operational capability in 2022. Further integrating IBCS with other Army systems must be a future priority: It is the standard bearer for air and missile defense integrated operations and a key enabler for dealing with complex and integrated attacks. This investment requires sustained support from the Department of Defense and Congress as well as priority funding as we wrestle with flat budgets and COVID-19's fiscal challenges and potential bills. The Army is expected to add IBCS to Project Convergence — a good plan, but this action cannot become a distraction or diversion of resources that slows its development and fielding. IBCS, as well as the integration of Patriot and THAAD, are critical to success in today's tactically and technically challenging operations, which are stressing the force. Our integration efforts must expand to all joint air and missile defense systems and to our allies and partners, who remain essential to our success. AIAMD will also be a major contributor to the Combined Joint All-Domain Command and Control concept and the Air Force's Advanced Battle Management System — two key programs focused on integration at the theater level. COVID-19 has changed our lives in many ways and will levy a bill on our defense budgets. We cannot allow integration programs or initiatives to become COVID-19 casualties because seeing first and understanding first are the most critical elements in managing a crisis and keeping it from becoming a catastrophe. Retired Lt. Gen. David Mann led U.S. Army Space and Missile Defense Command. He has also commanded Army air and missile defense forces in Iraq, Southwest Asia and the United States. Retired Maj. Gen. Francis Mahon served as the director for strategy, policy and plans at North American Aerospace Defense Command and U.S. Northern Command. He also commanded Army air and missile defense forces in Southwest Asia, South Korea and the United States. https://www.c4isrnet.com/battlefield-tech/c2-comms/2020/10/29/in-a-covid-19-world-system-integration-is-the-best-approach/