Anduril’s YFQ-44A Advances US Air Force Autonomous Combat Aircraft

Anduril’s YFQ-44A Takes Flight, Ushering in a New Era of Autonomous Air Combat

The landscape of military aviation is on the brink of a monumental shift, comparable to the transition from piston engines to jets or the advent of stealth technology. This transformation is being driven by the integration of advanced autonomy into combat aircraft, a concept brought to life by the U.S. Air Force’s Collaborative Combat Aircraft (CCA) program. The program aims to develop uncrewed, autonomous “wingmen” that will fly alongside and augment the capabilities of crewed fighters, providing what the military calls “affordable mass” to enhance lethality and survivability in contested environments.

At the forefront of this initiative is defense technology company Anduril, which has made significant strides with its YFQ-44A prototype. The successful first flight of this aircraft marks a critical milestone, not just for the company, but for the future of air warfare. This event signals a tangible step toward a future where teams of crewed and uncrewed aircraft collaborate to achieve air superiority. The CCA program represents a paradigm shift, moving away from a reliance on a small number of exquisite, expensive platforms toward a more distributed and resilient force structure.

Anduril’s approach, characterized by rapid hardware development fused with sophisticated software, has positioned it as a key innovator in the defense sector. By focusing on autonomy from the ground up, the company is tackling the most complex challenges of the CCA program head-on. The flight of the YFQ-44A is more than a technical demonstration; it is a proof of concept for a new way of developing and fielding critical defense capabilities at a pace relevant to modern strategic competition.

From Clean Sheet to First Flight: The YFQ-44A’s Rapid Ascent

Anduril’s journey with the YFQ-44A, internally known as Fury, has been defined by remarkable speed and a software-first philosophy. The company achieved a major program milestone by taking the aircraft from a “clean-sheet design to wheels-up in just 556 days,” a timeline it notes is faster than any major fighter aircraft program in recent history. This rapid development cycle is a direct response to the pacing threats identified by the Department of Defense, which necessitates a departure from traditional, decades-long acquisition timelines. The urgency is clear: adversaries are not waiting, and achieving “affordable mass” through programs like CCA is seen as essential for deterrence.

The foundation for the YFQ-44A was laid with Anduril’s acquisition of Blue Force Technologies in September 2023. Blue Force had been developing the Fury platform since 2019 as a high-performance aggressor aircraft. Anduril adapted this design for the CCA program, leveraging its expertise in autonomy and rapid prototyping. This strategic acquisition allowed Anduril to accelerate its entry into the competition, building upon an existing high-performance airframe designed for fighter-like capabilities, including speeds of Mach 0.95 and the ability to sustain 9 Gs.

The inaugural First-Flight on October 31, 2025, was a pivotal moment, showcasing the platform’s core design principle: semi-autonomous operation from day one. Unlike a remotely piloted drone, the YFQ-44A was not flown with a traditional stick and throttle. Instead, it executed a pre-planned mission, managed its own flight controls, and landed with the push of a button, all while monitored by a human operator. This approach validates the foundational software and control systems, paving the way for more complex manned-unmanned teaming exercises.

“By integrating autonomy into the earliest ground and flight tests for YFQ-44A, we’re tackling the hardest challenge that this technology presents first. As a result, we are accelerating the pace of learning and iteration so that we can ultimately deliver this decisive capability to warfighters faster.”, Jason Levin, SVP of Engineering, Air Dominance & Strike, Anduril.

The Competitive Landscape and Program Goals

The CCA program is a competitive endeavor designed to spur innovation and accelerate delivery. Anduril is one of two primary vendors selected for the first increment of the program, alongside General Atomics, which is developing the competing YFQ-42A. This competitive environment is seen as a driving force for progress. Secretary of the Air Force Frank Kendall has championed this approach as a way to field autonomous systems at speed and scale. The first flights of both prototypes provide the Air Force with crucial data to refine requirements and reduce risk before making a final production decision, expected in fiscal year 2026.

The ultimate goal of the CCA program is to create a versatile and cost-effective force multiplier. These robotic wingmen are envisioned to perform a wide range of missions, from carrying extra munitions and sensors to conducting electronic warfare and acting as decoys. By offloading these tasks from crewed aircraft, the CCA platforms enhance the survivability and lethality of the entire force package. The Air Force has indicated a potential procurement of up to 1,000 CCA Drones in the first increment alone, highlighting the scale of this transformative effort.

Anduril’s strategy extends beyond just building the aircraft; it involves creating a new model for defense manufacturing. The company is constructing a 5 million-square-foot production facility, Arsenal-1, in Columbus, Ohio, where it plans to begin producing prototype CCAs in the first half of 2026. This facility is designed for mass production, utilizing a common software backbone and a manufacturing philosophy focused on simplicity and mature technologies to build aircraft at a rate and cost that meets the program’s objective of “affordable mass.”

The Future of Air Combat: Manned-Unmanned Teaming

The successful flight test of the YFQ-44A is a crucial step toward realizing the concept of manned-unmanned teaming (MUM-T), a cornerstone of the Next Generation Air Dominance (NGAD) family of systems. The vision is for a single human pilot in a crewed fighter, such as an F-35 or the future NGAD platform, to command a team of autonomous CCA wingmen. These uncrewed aircraft will act as extensions of the pilot’s will, expanding their situational awareness, tactical options, and overall mission effectiveness.

Flight testing is about more than just validating the aircraft’s performance metrics like speed and maneuverability. It is the proving ground for the collaborative tactics and concepts of operation that will define this new era of air combat. Anduril and the Air Force are using these tests to write the playbook for how pilots will integrate, fight with, and sustain these autonomous systems in a high-end conflict. The software powering the YFQ-44A is designed to process data at combat speed, identify targets, and command effects, all while seamlessly collaborating with its human and robotic teammates.

This new paradigm promises to fundamentally alter the calculus of air warfare. By distributing capabilities across a larger number of lower-cost, attritable platforms, the Air Force can create more complex tactical dilemmas for adversaries while reducing the risk to human pilots. The integration of autonomy is the key enabler, allowing a small number of operators to manage a large fleet of assets. As Brian Schimpf, CEO of Anduril, noted, the CCA program embraces a “fast-moving, forward-looking approach to field autonomous systems at speed and scale.”

Conclusion: A New Chapter in Aviation History

The first semi-autonomous flight of Anduril’s YFQ-44A is a landmark achievement in the U.S. Air Force’s pursuit of next-generation air dominance. It represents a tangible advancement in the Collaborative Combat Aircraft program and a validation of Anduril’s rapid, software-centric approach to defense innovation. By achieving flight in just 556 days from a clean-sheet design, the program demonstrates a new potential for speed and agility in military hardware development, directly addressing the challenge of pacing threats.

Looking ahead, the data gathered from these initial flight tests will be instrumental in shaping the future of the CCA program and the broader integration of autonomy into the armed forces. The competition between Anduril and General Atomics will continue to drive innovation as the Air Force moves toward a production decision. The success of this program will not only deliver a new class of combat aircraft but also pioneer new manufacturing philosophies and operational concepts, ultimately reshaping the defense industrial base and the very nature of air superiority for decades to come.

FAQ

Question: What is the Collaborative Combat Aircraft (CCA) program?
Answer: The CCA program is a U.S. Air Force initiative to develop autonomous, uncrewed aircraft, or “robotic wingmen,” designed to fly alongside crewed fighter jets. The goal is to increase mission effectiveness and survivability by providing “affordable mass.”

Question: What is the Anduril YFQ-44A?
Answer: The YFQ-44A, also known as Fury, is Anduril’s prototype aircraft for the CCA program. It is a high-performance, semi-autonomous uncrewed aerial vehicle that recently completed its first flight test.

Question: How is the YFQ-44A operated?
Answer: The YFQ-44A is designed for semi-autonomous operation. It is not remotely piloted with a traditional stick and throttle. Instead, it executes pre-planned missions, manages its own flight controls, and lands with the push of a button, all while being monitored by a human operator.

Question: Who are the main competitors in the CCA program?
Answer: The two primary vendors for the first increment of the CCA program are Anduril, with its YFQ-44A, and General Atomics, with its YFQ-42A prototype.

Question: What is the timeline for the CCA program?
Answer: The Air Force is expected to make a final production decision for the first increment of the CCA program in fiscal year 2026, with the goal of fielding the first operational units before 2030.

Sources

• Anduril’s YFQ-44A Begins Flight Testing for the Collaborative Combat Aircraft Program