ADIFO: The hyper-agile, omnidirectional, supersonic flying saucer

ADIFO: The hyper-agile, omnidirectional, supersonic flying saucer 

At low speed, it operates like a quadcopter, at high speed, it's a jet-propelled, highly efficient supersonic aircraft whose entire body acts as a low-drag wing. Those are the claims of the Romanian creators of this flying saucer that's designed to offer unprecedented aerial agility across a broad range of speeds.

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V-22 Osprey Marks Three Decades of Transforming Military Aviation




press release

 During the thirty years since the V-22 Osprey first flew, the tiltrotor aircraft, built by Bell Helicopter, a Textron Inc. (NYSE: TXT) company, and Boeing [NYSE: BA], has fundamentally changed how the U.S. Marine Corps and Air Force operate in combat and support humanitarian operations. The V-22 has become one of the most in-demand and reliable aircraft in military service with its unique vertical maneuverability combined with the speed, range and fuel efficiency of a fixed-wing airplane.
So far, more than 375 V-22 aircraft have accumulated more than 450,000 flight hours across a spectrum of missions. Soon, the U.S. Navy will begin using a new V-22 variant to deliver personnel and cargo to its aircraft carriers, becoming the latest operator leveraging the aircraft’s unique capabilities.
“Over the last 30 years, the V-22 has reshaped power projection, assault support and special operations airlift. Since that first flight in Arlington Texas, the V-22 has proven its worth on the battlefields of Iraq Afghanistan, Syria and around the world. Thirty years later, now a networked platform, still with unmatched speed, and battlespace reach, the V-22 continues to enable global power projection and worldwide crisis response on a scale never before possible. The US Services and our allies look forward to the next 30 years of V-22s dominating the battlefield.”
said U.S. Marine Corps Col. Matthew Kelly, V-22 Joint Program manager.
The V-22 has deployed to operations in Afghanistan, Iraq, and Kuwait, and participated in humanitarian operations, including earthquake relief in Haiti and Japan and hurricane response in the United States. Military leaders continue to find new uses for the V-22. The missions it performs include airborne command and control, airborne fleet logistics, combat search and rescue and special operations support, among others.

“The Osprey continues to prove that tiltrotor technology has many benefits for operators challenged in the toughest environments. The V-22 enables operations in a way that was not previously possible. The high demand for Ospreys is a signal that the aircraft is essential for customers around the world.”
aid Chris Gehler, vice president, Bell V-22 Program and deputy program director, Bell Boeing V-22
The V-22’s unique tiltrotor design means the aircraft takes off and lands like a helicopter and flies as a propeller-driven aircraft. These characteristics offer the tactical flexibility to deploy with a smaller logistical footprint and without a runway to access areas that are unreachable with any other aircraft. Major production locations are Philadelphia and Amarillo, with Rolls-Royce producing the aircraft’s two engines in its Indianapolis facility. The V-22 industry team is not only producing new aircraft, but it is also working with the Marine Corps to reduce the number of aircraft configurations and simplify designs for readiness improvements for the active V-22 inventory.

BELL AND ROLLS-ROYCE COLLABORATE ON ADVANCED PROPULSION SYSTEMS



PR

 Bell Helicopter, a Textron Inc. (NYSE: TXT) company, announced a teaming agreement with Rolls-Royce for the development of an optimized propulsion system and continued risk reduction efforts aimed at the V-280 Valor and V-247 advanced vertical lift platforms. The collaboration will focus on the integration of Rolls-Royce’s proven low-risk and advanced propulsion systems into future Bell aircraft.
“The goal of this collaboration is to further enhance the performance and affordability of our aircraft. Future Vertical Lift programs bring revolutionary solutions for warfighters; Bell and Rolls-Royce are focused on delivering those capabilities.”
said Keith Flail, vice president of Advanced Vertical Lift Systems at Bell
This agreement extends Bell’s support for the U.S. military’s aviation modernization and acquisition priorities. Building industry relationships delivers options to rapidly mature technology and provide capability to the warfighter. The result will be more options to create aircraft with revolutionary capabilities for vertical lift programs. 
“Bell is at the forefront of creating highly capable and sustainable aircraft that vastly outperform legacy platforms, and Rolls-Royce is a world leader in advanced engines and propulsion systems. We are excited to enhance our long-standing relationship with Bell and help deliver on customer requirements through innovative solutions and proven technologies."
said Jason Propes, senior vice-president, Defense Customer Relations at Rolls-Royce.
As part of this teaming agreement, Bell will lead the design, development and production of advanced vertical lift systems, and Rolls-Royce will provide its technical expertise in propulsion systems to provide potential customers with tested, high-performance solutions. This collaboration extends a successful relationship between Bell and Rolls-Royce that has existed for more than 50 years.
To see updates on the V-280 Valor, V-247 Vigilant and learn more about Bell’s innovative capabilities, please visit https://www.bellflight.com/, and follow us on YouTube, LinkedIn, Twitter, Facebook and Instagram.
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ABOUT ROLLS-ROYCE
Rolls-Royce employs 6,000 people in 27 states across the U.S., literally coast-to-coast, from southern California to Walpole, Massachusetts. Indianapolis is the largest Rolls-Royce engineering, design and manufacturing site in the U.S. The company produces engines and propulsion systems for multiple U.S. military aircraft at Indianapolis, including the C-130J transport, V-22 Osprey Global Hawk unmanned aerial vehicle, and the LiftSystem for the F-35B Lightning II.  Rolls-Royce engines manufactured in Indianapolis and elsewhere power a wide array of aircraft and ships for all services of the U.S. military -- the Air Force, Marine Corps, Navy, Army, and Coast Guard. In addition, Rolls-Royce supports more than 52,000 jobs across the U.S., adding nearly $9 billion to the nation’s economy each year. Rolls-Royce has invested nearly $1 billion in Research and Development in the US since 2013, and is nearing completion of a $600 million investment to modernize its Indianapolis facilities and for new technology development.

Lockheed Martin's First Smart Satellites are Tiny with Big Missions



press release




Lockheed Martin (NYSE: LMT) announced a new generation of space technology launching this year that will allow satellites to change their missions in orbit. Satellites that launched one, ten or even fifteen years ago largely have the same capability they had when they lifted off. That's changing with new architecture that will let users add capability and assign new missions with a software push, just like adding an app on a smartphone. This new tech, called SmartSat, is a software-defined satellite architecture that will boost capability for payloads on several pioneering nanosats ready for launch this year.

"Imagine a new type of satellite that acts more like a smartphone. Add a SmartSat app to your satellite in-orbit, and you've changed the mission," said Rick Ambrose, executive vice president of Lockheed Martin Space. "We are the first to deploy this groundbreaking technology on multiple missions. SmartSat will give our customers unparalleled resiliency and flexibility for changing mission needs and technology, and it unlocks even greater processing power in space."


This year Lockheed Martin is integrating SmartSat technology on ten programs and counting, including the Linus and Pony Express nanosats, which will be the first to launch. These are rapid-prototype, testbed satellites using internal research and development funding, ready for 2019 launches on the first LM 50 nanosatellite buses:
The Linus project delivers two 12U cubesats performing a technology demonstration mission, validating SmartSat capabilities as well as 3D-printed spacecraft components.
Pony Express builds multiple 6U satellites destined for a low earth orbit and will space qualify state-of-the-art networking technologies. Pony Express 1 is a pathfinder for a software-defined payload that will test cloud computing infrastructure and was developed in nine months. Follow-on Pony Express missions will prove out RF-enabled swarming formations and space-to-space networking.

"SmartSat is a major step forward in our journey to completely transform the way we design, build and deliver satellites," said Ambrose. "The LM 50 bus is the perfect platform for testing this new, groundbreaking technology. We're self-funding these missions to demonstrate a number of new capabilities that can plug into any satellite in our fleet, from the LM 50 nanosat to our flagship LM 2100. And the same technology not only plugs into ground stations, improving space-ground integration, it will one day connect directly with planes, ships and ground vehicles, connecting front-line users to the power of space like never before."

Cyber security is at the core of this new technology. SmartSat-enabled satellites can reset themselves faster, diagnose issues with greater precision and back each other up when needed, significantly enhancing resiliency. Satellites can also better detect and defend against cyber threats autonomously, and on-board cyber defenses can be updated regularly to address new threats.

SmartSat uses a hypervisor to securely containerize virtual machines. It's a technology that lets a single computer operate multiple servers virtually to maximize memory, on-board processing and network bandwidth. It takes advantage of multi-core processing, something new to space. That lets satellites process more data in orbit so they can beam down just the most critical and relevant information—saving bandwidth costs and reducing the burden on ground station analysts, and ultimately opening the door for tomorrow's data centers in space.

SmartSat uses a high-power, radiation-hardened computer developed by the National Science Foundation's Center for Space, High-performance, and Resilient Computing, or SHREC. Lockheed Martin helps fund SHREC research, and in turn gains access to world-class technologies and student researchers.

About Lockheed Martin
Headquartered in Bethesda, Maryland, Lockheed Martin is a global security and aerospace company that employs approximately 105,000 people worldwide and is principally engaged in the research, design, development, manufacture, integration and sustainment of advanced technology systems, products and services.

Boeing Receives U.S. Navy Multiyear Contract for F/A-18 Production



press release




With a three-year contract award for 78 F/A-18 Block III Super Hornets, Boeing [NYSE: BA] will play a vital role in the U.S. Navy’s fleet modernization efforts.

The Block III configuration adds capability upgrades that include enhanced network capability, longer range, reduced radar signature, an advanced cockpit system and an enhanced communication system. Boeing will begin converting existing Block II Super Hornets to Block III early in the next decade. The fighter’s life also will be extended from 6,000 hours to 10,000 hours.

This new multi-year contract benefits the U.S. Navy and Boeing by allowing both to schedule future production and Navy officials estimate this multi-year model saves a minimum of $395 million on this contract valued at approximately $4 billion.

“This multiyear contract will provide significant savings for taxpayers and the U.S. Navy while providing the capacity it needs to help improve readiness,” said Dan Gillian, vice president of F/A-18 and EA-18G programs. “A multiyear contract helps the F/A-18 team seek out suppliers with a guaranteed three years of production, instead of negotiating year to year. It helps both sides with planning, and we applaud the U.S. Navy on taking the appropriate steps needed to help solve its readiness challenges.”

For more information on Defense, Space & Security, visit www.boeing.com. Follow us on Twitter: @BoeingDefense and @BoeingSpace.

Sikorsky-Boeing SB>1 DEFIANT™ Helicopter Achieves First Flight




press release
https://boeing.mediaroom.com/2019-03-21-Sikorsky-Boeing-SB-1-DEFIANT-TM-Helicopter-Achieves-First-Flight#assets_20295_130411-117:20588
https://news.lockheedmartin.com/2019-03-21-Sikorsky-Boeing-SB-1-DEFIANT-TM-Helicopter-Achieves-First-Flight



https://youtu.be/Sm-N7trI0sw


The Sikorsky-Boeing SB>1 DEFIANT™ helicopter achieved first flight today at Sikorsky’s West Palm Beach, Fla., site. This revolutionary aircraft, developed by Sikorsky, a Lockheed Martin Company [NYSE: LMT], and Boeing [NYSE: BA], will help inform the next generation of military helicopters as part of the U.S. Army’s Future Vertical Lift program.



“The design and development of DEFIANT has revealed the capability advancement that is truly possible for Future Vertical Lift,” said David Koopersmith, vice president and general manager, Boeing Vertical Lift. “Clearly, the performance, speed and agility of DEFIANT will be a game changer on the battlefield and we look forward to demonstrating for the U.S. Army the tremendous capabilities of this aircraft.”

With its two coaxial main rotors and a rear mounted pusher propulsor, DEFIANT is unlike production rotorcraft available today. It represents a leap forward in technology to achieve the U.S. government’s desire for vast increases in speed and range while improving maneuverability and survivability in a cost-effective way. DEFIANT aircraft’s use of X2™ Technology will allow the Army to penetrate from strategic standoff and exploit gaps created in complex Anti-Access Area Denial systems against near-peer adversaries.

“DEFIANT is designed to fly at nearly twice the speed and has twice the range of conventional helicopters while retaining the very best, if not better, low-speed and hover performance of conventional helicopters,” said Dan Spoor, vice president, Sikorsky Future Vertical Lift. “This design provides for exceptional performance in the objective area, where potential enemy activity places a premium on maneuverability, survivability and flexibility. We are thrilled with the results of today’s flight and look forward to an exciting flight test program.”

The helicopter is participating in the Army's Joint Multi-Role-Medium Technology Demonstrator program. Data from DEFIANT will help the Army develop requirements for new utility helicopters expected to enter service in the early 2030s. This flight marks a key milestone for the Sikorsky-Boeing team and is the culmination of significant design, simulation and test activity to further demonstrate the capability of the X2 Technology.

X2 Technology is scalable to a variety of military missions such as attack and assault, long-range transportation, infiltration and resupply. DEFIANT is the third X2® aircraft in less than 10 years.

For more information, visit http://www.lockheedmartin.com/defiant and https://www.boeing.com/defense/future-vertical-lift/.

About Lockheed Martin
Headquartered in Bethesda, Maryland, Lockheed Martin is a global security and aerospace company that employs approximately 105,000 people worldwide and is principally engaged in the research, design, development, manufacture, integration and sustainment of advanced technology systems, products and services.

About Boeing
For more information on Defense, Space & Security visit www.boeing.com. Follow us on Twitter: @BoeingDefense and @BoeingSpace.