Collaborative Mission Autonomy

Peer adversaries are fielding sophisticated technologies, creating a highly uncertain and dynamic threat environment. To prevail against these threats, we must decide and act more quickly than our adversaries. To that end, Scientific Systems has created a revolutionary autonomy software platform based on the science of behavioral robotics. With Collaborative Mission Autonomy (CMA) onboard, artificial intelligence can power autonomous platforms to dramatically shorten OODA-loop cycles to effectively “out decide” our adversaries.

Benefits

Intelligent Control Decisions

Collaboration Across Systems

Orchestration of Systems with Human Supervision

Complementary With Other Capabilities

Make independent, intelligent control decisions based on commander’s intent, rules of engagement, and contextual environment data. We uniquely couple artificial intelligence methods such as neural networks and machine learning with our CMA engine in order to maximize mission effects in complex and uncontrolled environments.

Collaborate with many other AI-enabled autonomous and uncrewed systems in and across domains. CMA provides efficient and resilient collaboration even with low communications quality-of-service.

Exercise human supervisory control in accordance with current policy, strategy, doctrine, operational requirements, and tactical procedures. With command and control at the mission level, CMA provides the ability of single operators to orchestrate tens to even hundreds of uncrewed platforms in and across domains to achieve highly dynamic mission objectives.

Our multi-vehicle autonomy platform is host to some of our other capabilities including our image-based precision landing, image-based collision detection, non-GPS navigation, and intelligent taskable autonomy.

How Collaborative Mission Autonomy Works

Collaborative Mission Autonomy (CMA) revolutionizes operations across crewed and uncrewed platforms, going beyond sensor fusion to facilitate dynamic integration and orchestration of a “system of services.” Using CMA, autonomous platforms optimize sensor payload performance and swiftly relay critical information to prioritized assets, compressing the timeline from data intake to action, which is crucial in time-sensitive scenarios. Scientific Systems’ modular architecture ensures seamless integration into diverse uncrewed platforms, facilitating rapid incorporation of advanced AI-based components for adaptive decision-making in evolving mission landscapes.

Learn More About Collaborative Mission Autonomy

Discover how our AI-powered systems can enhance your combat effectiveness across all domains of warfare. Start the conversation now.

military aircrafts and ships