General Atomics Aeronautical Systems, Inc. (GA-ASI) and General Atomics Integrated Intelligence, Inc. (GA-Intelligence) conducted a demonstration flight integrating technologies across multiple affiliates to showcase long-range kill chain effects, including an autonomous air-to-air engagement.
The flight integrated local and global sensor fusion to deliver real-time situational awareness and autonomous tasking to an airborne MQ-20 Avenger® through the Tactical Autonomy Core Ecosystem (TacACE), closing the kill chain and showcasing the system’s maturity and operational readiness for the warfighter.
The event featured the integration of a Collaborative Combat Aircraft (CCA), a fully compliant government owned autonomy implementation, and beyond-line-of-sight (BLOS) command and control (C2). The MQ-20 unmanned jet, furnished by GA-ASI, acted as a CCA surrogate in a sensor Emission Control (EMCON) environment.
Command & Control with Multi-Domain Sensor Fusion
The jet operated autonomously and was controlled using distributed-edge C2 nodes powered by Optix.C2 and Omniview software. Optix.C2, a product from General Atomics-Intelligence, provided low-latency, localized C2 functionality while remaining networked to the broader operational picture, enabling real-time coordination across multiple domains.
General Atomics successfully fused space-based sensing and tactical sensing with the C2 node during the flight, giving the aircraft access to a complete real-time threat picture for enhanced onboard autonomous decision-making. The demonstration also included live coordination of Intelligence, Surveillance, and Reconnaissance (ISR) and kinetic tasking through a unified operator interface capable of deployment in virtually any cloud environment.
Autonomous Engagement & Future Capabilities
During the exercise, the live MQ-20 aircraft autonomously patrolled a designated Combat Air Patrol (CAP) zone, leveraging off-board sensors to demonstrate how passive collection techniques can inform autonomous platforms in real time. Four CCA surrogates, including one live and three virtual, were directed by an operator to investigate multiple targets of interest.
Upon identifying them as threats, the operator issued a command to initiate the BLOS engagement. The autonomous systems maneuvered into position, simulated missile launches, assessed battle damage, and returned to CAP without additional operator input.
GA-ASI continues to develop and validate autonomy products that deliver scalable, collaborative aircraft behavior with minimal operator input. GA-Intelligence provided multi-sensor global fusion and engagement orchestration algorithms and interfaces. The latest demonstration expands the company’s autonomy portfolio with access to a complete threat picture while advancing critical-edge C2 capabilities and intuitive operator interfaces.
Dr. Brian Ralston, President of GA-Intelligence, stated, “This demonstration illustrates the value of integrating cutting-edge and proven technologies across the GA enterprise. The Optix data platform and C2 capability enable rapid integration and experimentation to address critical DoD and IC needs.”
Michael Atwood, Vice President of Advanced Programs at GA-ASI, added, “This demonstration represents a substantial leap in autonomy and human-machine interfaces that are critical to the warfighter in the near-peer fight. By integrating Optix.C2 with TacACE, we’re delivering a system that not only operates at the tactical edge but also enables rapid decision-making and execution across the battlespace. This is the future of warfare — scalable, autonomous systems that empower the warfighter to dominate at range.”
