An F-16 Fighting Falcon, assigned to the 180th Fighter Wing, approaches a KC-135 Stratotanker with the 121st Air Refueling Wing over the skies of Canada, May 20, 2026. The F-16 Fighting Falcon can fly more than 500 miles, but the KC-135 can extend its radius beyond that and deliver airpower anywhere, anytime, globally. (U.S. Air National Guard photo by Airman 1st Class Taylor Warehime)

An F-16 Fighting Falcon, assigned to the 180th Fighter Wing, flies alongside a KC-135 Stratotanker with the 121st Air Refueling Wing over the skies of Canada, May 20, 2026. The F-16 Fighting Falcon can fly more than 500 miles, but the KC-135 can extend its radius beyond that and deliver airpower anywhere, anytime, globally. (U.S. Air National Guard photo by Airman 1st Class Taylor Warehime)

On 19 May, Saab’s airborne early warning sensor, LoyalEye, successfully completed its first flight on an unmanned aircraft at GA-ASI’s Desert Horizon facility in Southern California. This milestone marks the start of a several-month test evaluation phase, which will culminate in a full capability demonstration later this year.
Saab is a global leader in airborne early warning systems, known for its manned AEW&C solution, GlobalEye. GA-ASI brings advanced unmanned aircraft systems and extensive operational experience to the table. Together, the companies are developing an unmanned AEW solution designed to provide unmatched advanced air surveillance.

“LoyalEye on the MQ-9B offers critical airborne sensing, supporting extended persistence and operational reach. As a complement to manned assets, it aims to enhance situational awareness and, in combination, enable greater operational reach and flexibility”, said Carl Johan Bergholm, Head of Saab’s business area Surveillance.

“AEW for MQ-9B will offer critical aloft sensing to defend against tactical air munitions, guided missiles, drones, fighter and bomber aircraft, and other threats,” said GA-ASI President David R. Alexander. “Operational availability for a medium-altitude, long-endurance UAS is the highest of any military aircraft, and as an unmanned platform, its aircrews are not put into harm’s way.”

The joint AEW offering from Saab and GA-ASI will support a wide range of applications, including early detection and warning, long-range detection and tracking, and the simultaneous tracking of multiple targets. The system will operate both beyond the line of sight and via satellite communication (SATCOM) connectivity.

MELBOURNE, Fla. – May 21, 2026 – Eve Air Mobility (“Eve”) (NYSE: EVEX, EVEXW; B3: EVEB31), a global leader in advanced air mobility solutions, today announced the successful closeout of the hover & low‑speed flights block in the flight test campaign of its full‑scale engineering prototype. The completed block generated high‑fidelity data and knowledge gains that continue to mature the program as Eve progresses toward transition flight testing.

The milestone reflects Eve’s disciplined building-block approach, which expands the flight envelope step‑by‑step and validates models, control laws and aircraft behavior against real‑world data before moving into more complex tests. Each completed block strengthens the technical foundation for the next, tightening the correlation between simulation predictions and flight behavior.

“Closing this phase validates the discipline behind our flight test strategy,” said Johann Bordais, CEO of Eve. “Across 59 flights, we confirmed stable hover performance and predictable control behavior within the envelope, while expanding our understanding of loads, aerodynamics, propulsion and energy management, key foundations for the transition phase and the certification path ahead with the conforming prototypes.”

In this phase, the aircraft demonstrated stable hover performance and predictable handling through progressively more demanding maneuvers. The team first completed the low‑speed input phase below 15 knots, executing activities to validate control laws, downwash effects, thermal behavior and the propulsion model. As testing progressed, operations expanded to approximately 20 knots of ground speed (vehicle speed), including simultaneous four‑axis maneuvers to further validate aerodynamic and load models, supporting progression to higher speeds, a broader envelope and larger control deflections.

Notable milestones from this phase include the execution of more than 100 flight test points and the first demonstrations of autoland and the simplified fly-by-wire mode, a secondary layer of the fly-by-wire system that is activated when the normal mode is unavailable. The aircraft also reached 215 feet above ground level (AGL) and flew for 3 minutes and 48 seconds. Throughout testing, the aircraft showed consistent behavior under simultaneous four‑axis inputs. Recorded noise levels remained in line with expectations, while propulsion and battery performance were better than anticipated.

“Completing hover and low‑speed testing gives us high‑confidence data to validate and refine our aerodynamic, propulsion and load models,” said Marcelo Basile, Head of Tests of Eve. “That model correlation is what enables disciplined envelope expansion. With planned ground tests next, we will be ready to begin transition flights, in which we validate the lifter-pusher synchronization before moving on to the cruise phase.”

Over the coming weeks, Eve’s engineering prototype will conduct planned ground tests in preparation for the transition flights block, expected to begin in summer 2026 (July/August). The transition phase is designed to further strengthen the development of the final aircraft by expanding the envelope and validating performance as the program advances toward wingborne flight.

SAN DIEGO – 21 May 2026 – The YFQ-42A Collaborative Combat Aircraft, built by General Atomics Aeronautical Systems, Inc. (GA-ASI) for the U.S. Air Force, has returned to flight testing following a round of safety reviews and software enhancements for the new uncrewed fighter jet.

The return follows a strategic pause in flight testing stemming from an April 6 mishap shortly after takeoff. Other aspects of the YFQ-42A program, including ground testing and other Technology Maturation and Risk Reduction (TMRR) activities, continued without interruption.

No one was injured in the incident, though the aircraft was a total loss. A thorough safety review isolated the cause to an autopilot miscalculation for the weight and center of gravity of the aircraft, prompting a software remediation.

The Air Force and GA-ASI conducted a joint review following the mishap. Following a stringent evaluation, technical authorities endorsed the software changes and YFQ-42A has returned to the air.

“We’re excited to have YFQ-42A flying again,” said GA-ASI President David R. Alexander. “It’s been said that you learn more from your setbacks than your successes. We are applying what we’ve learned to our growing fleet of CCAs, as we continue building the most dependable and cost-efficient unmanned fighters in the world.”

The YFQ-42A is a purpose-built CCA platform developed as part of ongoing investment in next-generation semi-autonomous combat aircraft. The aircraft’s modular design enables rapid integration of mission systems and mission autonomy software. GA-ASI’s software architecture, demonstrated through multiple live flight tests on multiple airframes, provides the foundation for human-machine teaming in complex combat scenarios.

GA-ASI was selected by the U.S. Air Force in April 2024 to build production-representative flight test articles for the CCA program. The YFQ-42A successfully conducted its maiden flight in August 2025, validating a “genus/species” concept for rapid, modular, and low-cost uncrewed fighter aircraft development. This approach enables a common core aircraft design that can be rapidly adapted for different mission sets and service requirements.

About GA-ASI

General Atomics Aeronautical Systems, Inc., is the world’s foremost builder of Unmanned Aircraft Systems (UAS). Logging more than 9 million flight hours, the Predator® line of UAS has flown for over 30 years and includes MQ-9A Reaper®, MQ-1C Gray Eagle®, MQ-20 Avenger®, and MQ-9B SkyGuardian®/SeaGuardian®. The company is dedicated to providing long-endurance, multi-mission solutions that deliver persistent situational awareness and rapid strike.

For more information, visit www.ga-asi.com

The first Wedgetail has touched down at RAF Lossiemouth.

This new capability will deliver airborne surveillance and strengthen the UK’s ability to operate and respond across the globe.
Achieving the next stage of our new capability requires a period of dedicated ground based testing followed by live flying.
(Photos courtesy of the RAF)



Another unforgettable chapter closes as NATO Tiger Meet 2026 in Araxos comes to an end. Once again, the incredible spirit of the Tiger community shined through—proving that our squadrons and jets are defined not just by strength and performance, but by true solidarity. We look forward to reuniting next year for Tiger Meet 2027 in Gioia del Colle, Italy.
(Photos courtesy of NATO)