Boeing has introduced its newest unmanned platform, the Boeing Airpower Teaming System. Designed for global defense customers by Boeing Australia, it is the company’s largest investment in a new unmanned aircraft program outside the United States. The aircraft will complement and extend airborne missions through smart teaming with existing military aircraft.
A model of the Boeing Airpower Teaming System was unveiled at the Australian International Airshow by the Australian Minister for Defence, the Hon. Christopher Pyne MP. As a research and development activity, the Australian Government and Boeing will produce a concept demonstrator called the Loyal Wingman – Advanced Development Program that will provide key learnings toward the production of the Boeing Airpower Teaming System.
“The Boeing Airpower Teaming System will provide a disruptive advantage for allied forces’ manned/unmanned missions,” said Kristin Robertson, vice president and general manager of Boeing Autonomous Systems. “With its ability to reconfigure quickly and perform different types of missions in tandem with other aircraft, our newest addition to Boeing’s portfolio will truly be a force multiplier as it protects and projects air power.”
The Boeing Airpower Teaming System will:
-- Provide fighter-like performance, measuring 11.7 metres long and able to fly more than 2,000 nautical miles
-- Integrate sensor packages onboard to support intelligence, surveillance and reconnaissance missions and electronic warfare
-- Use artificial intelligence to fly independently or in support of manned aircraft while maintaining safe distance between other aircraft.
“This aircraft is a historic endeavor for Boeing. Not only is it developed outside the United States, it is also designed so that our global customers can integrate local content to meet their country-specific requirements,” said Marc Allen, president, Boeing International. “The Boeing Airpower Teaming System provides a transformational capability in terms of defense, and our customers – led by Australia – effectively become partners on the program with the ability to grow their own sovereign capabilities to support it, including a high-tech workforce.”
The aircraft’s first flight is planned for 2020.
U.S. Army pilots exercised supervised autonomy to direct an optionally-piloted helicopter (OPV) through a series of missions, to demonstrate technology developed by Sikorsky and the Defense Advanced Research Projects Agency (DARPA). The series of flights marked the first time that non-Sikorsky pilots operated the Sikorsky Autonomy Research Aircraft (SARA), a modified S-76B commercial helicopter, as an OPV aircraft.
"Future vertical lift aircraft will require robust autonomous and optimally-piloted systems to complete missions and improve safety," said Chris Van Buiten, vice president, Sikorsky Innovations. "We could not be more thrilled to welcome Army aviators to the cockpit to experience first-hand the reliability of optimally-piloted technology developed by the innovative engineers at Sikorsky and DARPA. These aviators experienced the same technology that we are installing and testing on a Black Hawk that will take its first flight over the next several months."
SARA, which has more than 300 hours of autonomous flight, successfully demonstrated the advanced capabilities developed as part of the third phase of DARPA's Aircrew Labor In-Cockpit Automation System (ALIAS) programme. The aircraft was operated at different times by pilots on board and pilots on the ground. Sikorsky's MATRIX Technology autonomous software and hardware, which is installed on SARA, executed various scenarios including:
Automated Take Off and Landing: The helicopter autonomously executed take-off, traveled to its destination, and autonomously landed
Obstacle Avoidance: The helicopter's LIDAR and cameras enabled it to detect and avoid unknown objects such as wires, towers and moving vehicles
Automatic Landing Zone Selection: The helicopter's LIDAR sensors determined a safe landing zone
Contour Flight: The helicopter flew low to the ground and behind trees
The recent Mission Software Flight Demonstration was a collaboration with the U.S. Army's Aviation Development Directorate, Sikorsky and DARPA. The Army and DARPA are working with Sikorsky to improve and expand ALIAS capabilities developed as a tailorable autonomy kit for installation in both fixed wing airplanes and helicopters.
Over the next few months, Sikorsky will for the first time fly a Black Hawk equipped with ALIAS. The company is working closely with the Federal Aviation Administration to certify ALIAS/MATRIX technology so that it will be available on current and future commercial and military aircraft.
"We're demonstrating a certifiable autonomy solution that is going to drastically change the way pilots fly," said Mark Ward, Sikorsky Chief Pilot, Stratford, Conn. Flight Test Center. "We're confident that MATRIX Technology will allow pilots to focus on their missions. This technology will ultimately decrease instances of the number one cause of helicopter crashes: Controlled Flight Into Terrain (CFIT)."
Through the DARPA ALIAS program, Sikorsky is developing an OPV approach it describes as pilot directed autonomy that will give operators the confidence to fly aircraft safely, reliably and affordably in optimally piloted modes enabling flight with two, one or zero crew. The program will improve operator decision aiding for manned operations while also enabling both unmanned and reduced crew operations.
Via PR Newswire / Lockheed Martin
Boeing will build the U.S. Navy’s first operational carrier-based unmanned aircraft, the MQ-25 aerial refueller, through an $805 million contract awarded on August 30.
Boeing was awarded the engineering and manufacturing development contract to provide four aircraft. The company plans to perform the MQ-25 work in St. Louis.
“As a company, we have made an investment in both our team and in an unmanned aircraft system that meets the U.S. Navy’s refueling requirements,” said Leanne Caret, president and CEO, Boeing Defense, Space & Security. “The fact that we’re already preparing for first flight is thanks to an outstanding team who understands the Navy and their need to have this important asset on carrier decks around the world.”
MQ-25 is designed to provide the U.S. Navy with a much-needed refueling capability. According to the U.S. Navy, the MQ-25 Stingray will allow for better use of combat strike fighters by extending the range of deployed Boeing F/A-18 Super Hornet, Boeing EA-18G Growler, and Lockheed Martin F-35C aircraft. MQ-25 will also seamlessly integrate with a carrier’s catapult and launch and recovery systems.
Boeing has been providing carrier aircraft to the U.S. Navy for more than 90 years.