EpiSci Announces Successful Naval Exercise Demonstration with Autonomy Software

EpiSci is thrilled to announce the successful demonstration of our autonomy software as part of a recent Naval Exercise. At the exercise, EpiSci’s cutting-edge multi-agent collaborative autonomy algorithms empowered surface vessels to discreetly search, localize, and track a high-value maritime target.

Through a commitment to software-first methodologies, EpiSci offers scalable autonomy solutions that transcend traditional platform limitations. From integrating sensors or weapons to orchestrating diverse platforms, our software ensures seamless collaboration and operational efficiency.

“Our software-centric approach achieves a dual purpose: it significantly reduces human workload while enhancing mission success rates and overall survivability,” said Aaron Gibney, EpiSci’s VP of BMC2. “Our goal is to deploy this game-changing capability to military operators as fast as possible. Exercises like these give us an invaluable opportunity to showcase how EpiSci’s software makes future sea denial operations possible.”

About EpiSci

EpiSci is a software company that develops next generation, tactical autonomy solutions for national security problems. EpiSci’s autonomy software is technology agnostic, operationally informed, tactically relevant, and has piloted swarms of uncrewed aerial systems and tactical fighter aircraft. Additional applications include crewed-uncrewed teaming for air dominance, cognitive sensors and networks for advanced communications systems, as well as battle management command and control for informed decision-making. EpiSci delivers unmatched speed, cost-efficiency, and scalability as the preferred partner for defense agencies & industry teams seeking mission-critical autonomy solutions. Learn more at EpiSci and follow EpiSci on LinkedIn.

Previous
Previous

EpiSci Completes Operator Training on Autonomy Products for AFWERX AutonomyPrime

Next
Next

EpiSci to Collaborate with Northrop Grumman on Tactical Autonomy and Artificial Intelligence