Lockheed Martin Unveils Vectis Collaborative Combat Aircraft

Lockheed Martin’s Skunk Works Unveils Vectis: A Strategic Pivot Toward Next-Generation Collaborative Combat Aircraft

Lockheed Martin’s legendary Skunk Works division has emerged from the shadows with a bold new initiative that represents both a strategic response to recent contract losses and a forward-looking investment in the future of aerial warfare. The unveiling of Vectis, a stealthy Collaborative Combat Aircraft (CCA) designed to operate alongside manned fighters, demonstrates how the defense industry is adapting to evolving military requirements that prioritize distributed operations, cost-effectiveness, and technological modularity.

This development occurs against the backdrop of a rapidly expanding CCA market projected to reach between $736 million and $1.6 billion by 2030, driven by global military modernization efforts and the increasing recognition that future air superiority will depend on manned-unmanned teaming concepts rather than traditional single-platform approaches. The Vectis announcement also represents Skunk Works’ effort to leverage technologies developed for the recently lost Next Generation Air Dominance (NGAD) competition, where Boeing secured the contract for the F-47 sixth-generation fighter in March 2025, ending Lockheed’s monopoly on Western stealth fighter production.

As the defense sector pivots toward networked, autonomous systems, Vectis is positioned as a high-end, survivable CCA platform, signaling Lockheed Martin’s determination to compete in a market increasingly shaped by rapid innovation, open systems, and international collaboration.

Historical Context and Skunk Works Legacy

Skunk Works, Lockheed Martin’s advanced development division, has set the standard for aerospace innovation for over eight decades. Its portfolio includes legendary aircraft such as the U-2, SR-71 Blackbird, F-117 Nighthawk, and the RQ-170 Sentinel stealth drone. These projects have consistently pushed the boundaries of stealth, aerodynamics, and systems integration, establishing Skunk Works as a leader in classified and high-technology aerospace programs.

The RQ-170 Sentinel, for example, was developed in the mid-2000s as a stealthy, high-altitude, long-endurance UAV. With a wingspan of around 66 feet and an estimated takeoff weight exceeding 8,500 pounds, the RQ-170 demonstrated the feasibility of sophisticated, stealthy unmanned platforms operating in contested environments. Its deployment in sensitive operations, including surveillance during the 2011 raid that killed Osama bin Laden, highlighted Skunk Works’ ability to deliver operationally relevant technologies under secrecy.

The push toward sixth-generation fighter aircraft has been prompted by the limitations of fifth-generation platforms like the F-22 and F-35 in future high-threat environments. Sixth-generation concepts emphasize advanced networking, artificial intelligence, and the ability to command distributed fleets of unmanned systems. The Air Force’s NGAD program, while ambitious, encountered cost challenges, with estimates for each aircraft running upwards of $300 million. This led to a strategic reassessment and a shift toward more distributed, affordable approaches, paving the way for the CCA concept and platforms like Vectis.

The Vectis Unveiling and Technical Specifications

Skunk Works officially unveiled Vectis in September 2025 as a Group 5, survivable, lethal, and reusable CCA. According to OJ Sanchez, Vice President and General Manager of Skunk Works, Vectis aims to provide “best-in-class survivability at the CCA price point.” This suggests Lockheed’s intention to compete at the higher end of the CCA market, offering advanced capabilities that justify a premium over more expendable designs.

Vectis is classified as a Category 5 reusable drone, placing it among the largest and most capable unmanned aerial systems. While specific dimensions remain undisclosed, it is smaller than an F-16 but larger than Lockheed’s Common Multi-Mission Truck missile system, indicating significant payload and fuel capacity. The design features a tailless, lambda wing planform, top-mounted air intake, and shovel-shaped nose, all optimized for low observability. Internal images reveal an S-shaped intake and exhaust shrouding, further reducing radar and infrared signatures.

Emphasizing modularity, Vectis incorporates Skunk Works’ “Agile Drone Framework,” enabling open mission systems and interoperability with various command and control architectures. This allows customization for daily training, rapid crisis deployment, or integration with different sensor and weapon payloads. The open systems approach ensures compatibility with both Lockheed and non-Lockheed platforms, addressing customer concerns about vendor lock-in.

“Vectis is designed to operate across air-to-air, air-to-surface, and ISR missions, carrying internal weapons and sensors to maintain stealth while enabling flexible mission profiles.” — Skunk Works promotional materials

Collaborative Combat Aircraft Program Evolution

The CCA program is the Air Force’s flagship effort to field thousands of AI-enabled unmanned platforms operating alongside manned fighters. Increment 1 contracts were awarded in April 2024 to Anduril and General Atomics for the YFQ-42A and YFQ-44A, focusing on cost-effective, production-representative test articles. The target price for Increment 1 is $20.5–$27.5 million per aircraft, roughly one-quarter to one-third the cost of an F-35.

Increment 2, already in planning, is expected to require more advanced capabilities and higher costs, potentially $24.6–$35.75 million per aircraft. This creates space for higher-end platforms like Vectis, which prioritize survivability and advanced mission sets over pure cost minimization. The shift reflects a broader recognition that future air dominance will depend on distributed architectures with a mix of manned and unmanned assets, rather than a few exquisite platforms.

These developments are driven by the need to counter peer competitors with large numbers of advanced missiles and sensors. Distributed operations with CCAs offer resilience, extend sensor coverage, and provide attritable assets that can absorb attacks, reshaping the calculus of air superiority.

Strategic Market Context and Competition

The global CCA market is expanding rapidly, with research valuing the sector at $869.3 million in 2024 and projecting growth to $958 million in 2025. Compound annual growth rates of 10–14% through 2030 reflect both U.S. and international investment. North America leads development, but Europe and Asia-Pacific are accelerating indigenous and collaborative CCA programs.

European initiatives like the Global Combat Air Programme (UK, Italy, Japan) and Future Combat Air System (France, Germany, Spain) are investing heavily in sixth-generation and autonomous wingman technologies. Asia-Pacific countries including India and Australia are also developing indigenous CCA capabilities or partnering with established manufacturers to address regional security needs.

The competitive landscape has diversified, with new entrants like Anduril emphasizing software-driven, rapid development and traditional aerospace firms adapting to more agile, cost-conscious models. Kratos Defense, for example, focuses on attritable platforms like the XQ-58A Valkyrie, targeting unit costs around $2–6 million depending on configuration. This range illustrates the spectrum of approaches, from low-cost, expendable systems to survivable, high-end platforms like Vectis.

“The CCA market is projected to reach over $1.5 billion by 2030, driven by modernization programs and the shift toward manned-unmanned teaming in air forces worldwide.” — Market research analysis

International Partnerships and Technology Transfer

CCA development is increasingly international, with partnerships formed to share costs, access technology, and ensure interoperability. In September 2025, Lockheed Martin Skunk Works and BAE Systems FalconWorks announced a collaboration on uncrewed air systems, focusing on electronic warfare and attack roles. This partnership emphasizes modularity and multiple launch options, including air, ground, and maritime deployment.

Such collaborations reflect a broader trend toward transatlantic defense cooperation in response to evolving threats. U.S. firms are also partnering with European companies to develop region-specific variants and enable local production, exemplified by Anduril’s partnership with Germany’s Rheinmetall for the YFQ-44 Fury.

Regional needs drive customization: European markets prioritize sensors and short-range weapons, while Indo-Pacific requirements emphasize range and endurance. These factors encourage modular designs and open architectures, enabling tailored solutions while maintaining common core systems for allied interoperability.

Economic Analysis and Cost Considerations

CCA economics differ from traditional fighter programs, with plans to produce thousands of platforms over shorter service lives. The Air Force’s target price for Increment 1 CCAs is $20.5–$27.5 million, but experts caution that advanced sensors and low production rates could inflate costs, as seen with the RQ-4 Global Hawk’s $130 million price tag.

Commercial aerospace approaches, such as those used by SpaceX, suggest that costs can be reduced through modularity, rapid prototyping, and acceptance of higher technology refresh rates. However, reliance on specialized components and limited supplier bases poses risks for schedule and cost, underscoring the importance of open architectures and commercial off-the-shelf integration.

The international market amplifies economic stakes, with European rearmament programs representing significant sales opportunities. Early success in securing contracts could provide sustained competitive advantages and production volumes necessary to achieve cost targets.

Technological Innovation and Manufacturing Approaches

Vectis and other CCAs integrate advances in artificial intelligence, autonomy, and materials science. The “Agile Drone Framework” allows for rapid adaptation to changing mission needs, while open systems architectures enable integration with diverse platforms and control systems.

AI-driven autonomy is essential for CCAs to operate effectively with minimal human oversight, requiring robust sensor fusion, decision-making algorithms, and communications resilient to jamming. Skunk Works draws on classified experience from the RQ-170 and NGAD prototypes to inform Vectis’s stealth, aerodynamics, and systems integration.

Manufacturing must balance cost, quality, and scalability. Companies like Kratos use digital design and factory-based production to enable rapid iteration and cost reduction. Additive manufacturing and composite materials, as used in the RQ-170, further enhance performance and flexibility while supporting frequent upgrades.

“The shift to modular, open architectures and commercial-style manufacturing is redefining how advanced military aircraft are developed and produced.” — Industry analysis

Future Implications and Strategic Impact

The rise of sophisticated CCAs like Vectis marks a fundamental shift in military aviation. Large numbers of autonomous platforms, networked with manned aircraft, introduce new concepts for distributed operations, attrition warfare, and multi-domain battle management. CCAs can serve as forward sensors, missile carriers, or expendable decoys, extending the reach and survivability of traditional fighter fleets.

Internationally, CCA development influences technology transfer, alliance relationships, and strategic stability. Early adopters will gain significant advantages, while dependence on imported systems may limit capabilities for others. Interoperability among allied CCAs enhances coalition operations but requires agreement on standards and security protocols.

Operational doctrines for CCAs are still evolving, but their potential to reshape airpower, deterrence, and escalation dynamics is clear. Economic and industrial base considerations will shape the pace and scope of adoption, with successful platforms poised to capture global markets and drive future innovation.

Conclusion

The unveiling of Lockheed Martin’s Vectis CCA signals a watershed moment in the evolution of military aviation. By leveraging decades of advanced technology and emphasizing modularity, survivability, and interoperability, Skunk Works positions Vectis as a high-end solution in a rapidly growing market. The CCA program’s trajectory reflects broader industry shifts toward distributed, autonomous operations and international collaboration.

As CCAs become integral to future air forces, their impact will extend beyond platform capabilities to reshape doctrines, alliances, and defense industrial bases. For Lockheed Martin, Vectis represents both a strategic response to recent setbacks and a forward-looking investment in the next chapter of air dominance. The coming decade will determine which companies and nations define the future of manned-unmanned teaming and collaborative air combat.

FAQ

What is the Vectis Collaborative Combat Aircraft?
Vectis is a stealthy, reusable, high-end drone developed by Lockheed Martin’s Skunk Works. It is designed to operate alongside manned fighters and perform various missions, including air-to-air, air-to-ground, and ISR roles.

How does Vectis differ from other CCAs?
Vectis emphasizes survivability, modularity, and open systems, targeting customers who require advanced capabilities and interoperability, rather than just low-cost, expendable drones.

What is the projected market size for CCAs?
Market research projects the CCA market will grow from around $869 million in 2024 to between $736 million and $1.6 billion by 2030, with strong growth driven by U.S. and international defense investments.

Who are the main competitors in the CCA market?
Major competitors include Boeing, Northrop Grumman, Anduril, General Atomics, Kratos Defense, and several international firms collaborating on sixth-generation fighter and autonomous drone programs.

When is Vectis expected to fly?
The first flight of Vectis is planned for 2027, according to Lockheed Martin announcements.

Sources:
Lockheed Martin