BAE to Develop Software For Multi-domain Mission Planning for DARPA

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  • 12:35 PM, December 4, 2019
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BAE to Develop Software For Multi-domain Mission Planning for DARPA

The United States Defense Advanced Research Projects Agency (DARPA) has entered into an agreement with BAE Systems to develop software that will enable semi-autonomous multi-domain mission planning.

Dubbed Multi-domain Adaptive Request Service (MARS), the technology will be designed for military operators to leverage battlespace resources from across various domains, such as space, air, land, and sea, for more effective, efficient missions, the company said in a statement Tuesday.

Military operators currently use manual processes to assess availability and coordinate use of sensors, communications, weapons, and other assets across domains. DARPA's Adapting Cross-Domain Kill-Webs (ACK) program will seek to help operators adapt to dynamic situations with software technology that automatically identifies the best options.

In response, BAE Systems' FAST Labs research and development organization, along with teammate Carnegie Mellon University, will create the MARS software.

MARS aims to help operators make informed decisions by automatically identifying available capabilities across domains, and then rapidly assessing the costs and benefits to use those capabilities when adjusting mission tasks. The software also includes a visual interface that will allow the exploration of available asset options, helping operators arrive at the best course of action to deliver the desired effect on targets.

"Multi-domain mission planning is complex because it involves a tremendous amount of distributed variables such as domains, systems, resources, and manned and unmanned platforms," said Chris Eisenbies, product line director of the Autonomy, Controls, and Estimation group at BAE Systems.

"Our hope is that MARS will provide warfighters with the ability to automatically leverage the resources they need and quickly determine the most effective way to accomplish their mission no matter what type of battlespace they are operating in," Eisenbies added.