GA-ASI and Saab Develop Unmanned AEW&C System for MQ-9B Drone

A New Era of Vigilance: Unmanned AEW&C Takes Flight

The landscape of aerial surveillance is on the cusp of a significant transformation. General Atomics Aeronautical Systems, Inc. (GA-ASI) and Swedish defense giant Saab are joining forces to integrate advanced Airborne Early Warning and Control (AEW&C) capabilities onto the MQ-9B Remotely Piloted Aircraft (RPA). This collaboration, solidified by the announcement of a planned demonstration in the summer of 2026, signals a pivotal shift towards unmanned platforms for complex surveillance missions. The initiative aims to deliver a persistent, cost-effective solution for monitoring airspace, addressing a spectrum of threats from sophisticated cruise missiles to swarms of small Drones.

Traditionally, AEW&C capabilities have been the domain of large, manned aircraft, making them a costly and resource-intensive asset accessible to a limited number of nations. The integration of Saab’s world-class sensor technology with GA-ASI’s long-endurance MQ-9B platform is set to democratize this critical capability. By leveraging an unmanned system, the Partnerships seeks to provide continuous “eyes in the sky” without risking aircrew in contested environments, a crucial advantage in modern geopolitical climates. This development is not just an incremental improvement; it represents a fundamental rethinking of how air and maritime dominance can be achieved and maintained.

The forthcoming demonstration at GA-ASI’s Desert Horizon flight operations facility in Southern California will be a critical milestone. It will showcase the fusion of two leading technologies: the proven persistence and reliability of the MQ-9B and the sophisticated detection power of Saab’s AEW&C systems. The goal is to create a force multiplier that can augment existing fleets, extend surveillance ranges, and offer a powerful new tool for nations that currently lack this vital defensive layer. As threats evolve in complexity and accessibility, this partnership is poised to deliver a timely and adaptable response.

The Strategic Partnership: Merging Endurance with Advanced Sensing

The collaboration between GA-ASI and Saab is a natural synergy of their respective strengths. GA-ASI is a world leader in the design and manufacture of RPAs, with the MQ-9B series, including the SkyGuardian and SeaGuardian models, setting the standard for long-endurance unmanned Aircraft. These platforms are renowned for their ability to stay aloft for extended periods, offering unparalleled persistence for intelligence, surveillance, and reconnaissance (ISR) missions. The MQ-9B boasts an endurance of over 40 hours and a service ceiling of up to 40,000 feet, making it an ideal host for a demanding mission package like AEW&C.

On the other side of the partnership, Saab brings decades of expertise in developing cutting-edge Radar-Systems and sensor systems. Their Erieye radar system, a cornerstone of their GlobalEye AEW&C platform, is known for its ability to detect and track a wide array of targets over vast distances, including stealthy aircraft and low-flying cruise missiles. By adapting this technology for an unmanned platform, Saab is extending its reach into a new operational domain. The integration will involve pairing these advanced sensors with the MQ-9B, creating a system capable of simultaneous air, sea, and land surveillance.

The joint offering is designed to be versatile, spanning a wide range of applications from early detection and warning to long-range tracking and flexible combat system integration. This capability will be delivered over both line-of-sight and satellite communication links, ensuring that critical data can be relayed in real-time to command centers and other assets. The result is a system that not only sees the battlespace with clarity but also shares that vision seamlessly across a networked force.

“We’re developing an affordable AEW solution in cooperation with Saab… that will transform our customers’ operations against both sophisticated cruise missiles and simple but dangerous drone swarms.”, David R. Alexander, President, GA-ASI.

Redefining Operational Calculus: Cost, Persistence, and Safety

One of the most compelling arguments for an unmanned AEW&C platform is the significant reduction in operational costs. Manned AEW&C aircraft are expensive to procure, operate, and maintain. An MQ-9B-based solution offers the potential for similar, if not superior, persistence at a fraction of the cost, making it an attainable capability for a much broader range of countries. This cost-effectiveness allows nations to field a credible surveillance and early warning system without the prohibitive expense associated with traditional platforms.

Persistence is another key advantage. The ability of the MQ-9B to remain on station for more than a day provides continuous, uninterrupted surveillance of a designated area. This is a critical factor in maintaining situational awareness, particularly in dynamic threat environments where gaps in coverage can be exploited. For maritime operations, this capability is especially transformative, offering the potential for persistent AEW&C from naval carriers or land bases to protect fleets where such coverage may be limited or unavailable.

Furthermore, the unmanned nature of the platform fundamentally changes the risk equation. In high-threat environments, deploying a manned aircraft means putting a highly trained crew in harm’s way. The MQ-9B AEW&C eliminates this risk, allowing commanders to gather critical intelligence in contested airspace without fear of personnel loss. This factor alone is a powerful driver for the adoption of unmanned systems in increasingly complex and dangerous operational theaters.

A Force Multiplier for Modern Militaries

The introduction of an MQ-9B AEW&C system is not just about replacing existing assets; it’s about creating new strategic possibilities. For nations that already operate sophisticated AEW&C fleets, the unmanned platform can serve as a valuable supplement, extending the reach and endurance of their existing systems and providing a more layered defense. It can also be integrated into manned-unmanned teaming concepts, where the RPA acts as a forward sensor, feeding data back to manned aircraft or command centers, enhancing the overall operational effectiveness of the force.

For countries without existing AEW&C capabilities, this new system is a game-changer. It provides a powerful and affordable means to counter emerging threats, from hostile aircraft and missiles to the growing challenge of drone swarms. The MQ-9B is already being acquired or deployed by numerous countries, including the United Kingdom, Belgium, Canada, and Japan, creating a ready market for this new AEW&C variant. The ability to add such a critical capability to an existing or planned fleet of RPAs presents a highly attractive proposition.

The system’s versatility extends to its potential deployment from both land bases and naval vessels, including aircraft carriers. This opens up new possibilities for providing organic AEW&C support to maritime task forces, a capability that has traditionally been limited to a few of the world’s largest navies. By making persistent aerial surveillance more accessible and flexible, the GA-ASI and Saab partnership is poised to enhance the defensive and offensive capabilities of Military-Aircraft around the globe.

Concluding Section

The collaboration between GA-ASI and Saab to mount an AEW&C system on the MQ-9B platform is a landmark development in military aviation. By combining a proven long-endurance RPA with state-of-the-art sensor technology, they are creating a solution that addresses the core challenges of modern aerial surveillance: cost, persistence, and risk. The planned 2026 demonstration will be a crucial step in proving the viability of this concept and showcasing its potential to transform how nations monitor and defend their airspace.

Looking ahead, the successful integration of AEW&C capabilities onto an unmanned platform will likely accelerate the trend towards more autonomous and networked military systems. It opens the door to new operational concepts, such as persistent surveillance of vast maritime domains and the effective management of complex airspaces in high-threat scenarios. This initiative is more than just a new product; it’s a glimpse into the future of air power, where the synergy of manned and unmanned systems creates a more vigilant, resilient, and capable force.

FAQ

Question: What is the main goal of the GA-ASI and Saab partnership?
Answer: The primary goal is to integrate Saab’s advanced Airborne Early Warning and Control (AEW&C) sensor systems onto GA-ASI’s MQ-9B Remotely Piloted Aircraft (RPA) to provide a persistent, affordable, and lower-risk surveillance solution.

Question: When is the flight demonstration scheduled to take place?
Answer: A flight demonstration of the AEW&C-equipped MQ-9B is scheduled for the summer of 2026 at GA-ASI’s Desert Horizon flight operations facility in Southern California.

Question: What are the key advantages of an unmanned AEW&C platform?
Answer: The main advantages include significantly lower operational costs compared to manned aircraft, enhanced persistence with the ability to stay airborne for over 40 hours, and the elimination of risk to aircrew in dangerous or contested environments.

Question: Which countries might be potential customers for this new system?
Answer: Countries that have already ordered or are operating the MQ-9B platform, such as the United Kingdom, Belgium, Canada, Japan, India, and the U.S., are seen as potential customers for the new AEW&C variant.

Sources: GA-ASI