Tomorrow’s battlefield is unpredictable, multi-domain and contested. Modern forces will require autonomy that adapts instantly to mission demands and solutions that are interoperable, intelligible and resilient under combat conditions.

Collins Aerospace’s Collaborative Mission Autonomy software delivers a modular, scalable and mission-ready AI-powered solution that integrates seamlessly across platforms and domains.

Collins Collaborative Mission Autonomy is ready today

Fighter jets flying in formation along autonomous collaborative platforms

Any platform

Runs on lower cost and high-end platforms and is aligned with government architectures.

Any mission

Intelligence, surveillance and reconnaissance (ISR) strike, electronic warfare, contested logistics and more.

Combat ready

Flight-tested, validated, and combat-proven.

Operator-centric

Tablet-based human-machine interface (HMI) ensures trust and usability.

Open and modular

Seamlessly integrates into third-party systems for evolving mission needs.

Resilient and adaptable

Bias for action ensures continued mission execution in contested environments.

Open, modular and interoperable

 

Open architecture and modular design ensures easy integration and compatibility with third-party systems, behaviors and AI/ML advancements

Readily aligns with government architectures, facilitating cross-platform and cross-mission deployment
LVC (Live, Virtual, Constructive) environment enables seamless mission planning, testing, and debriefing.
Composable autonomy solution incorporates independently-developed behaviors, fusion, and SDK capabilities

Intelligible, trustworthy and trainable teammate

 

Supports human operators with transparent, explainable AI behaviors and decisions

Employs certifiable and standardized Tactics, Techniques, and Procedures (TTPs) to ensure predictability across systems and teams.

Designed to meet DoDD 3000.09 requirements for testability and validation.

Operator-centric interfaces, such as tablet-based HMI, ensure usability and alignment with human decision-making.

Resilient and adaptive in contested battlespace

 

Executes objectives within operator-directed ROE, even in fragmented or degraded team environments

Rapidly composable and easily evaluated in a virtual environment for faster development and deployment cycles.

Adapts to contingencies by leveraging best available tactics and novel behaviors.

Proven support for contested combat operations through robust sensor, platform and mission integration.

Request information

I would like more information about this capability.