Persistent Systems Supports Air Force’s Advanced Battle Management System Experiment
Persistent Systems, LLC a leader in mobile ad hoc networking, announced it successfully supported the U.S. Air Force’s second Advanced Battle Management System (ABMS) On-Ramp Experiment, which took place under the auspices of U.S. Space, Strategic and Northern Commands and wrapped up on September 3.
Unlike the traditional platform-centric program with a prime contractor, ABMS brings together dozens of companies in a multi-billion-dollar effort to build a military internet of things. The goal is to connect computers, sensors and shooters at machine-speed, thus fulfilling the U.S. Department of Defense’s vision of Joint All Domain Command and Control (JADC2).
Taking place at multiple military sites, ABMS On-Ramp 2 simulated an attack on U.S. national infrastructure. “To respond to such an attack in a coordinated fashion, the combatant commands needed reliable connectivity,” said Adrien Robenhymer, VP of Business Development for Persistent Systems. “Our Wave Relay MANET technology played a major role in delivering that mobile connectivity fabric.”
At Nellis AFB, in Nevada, Persistent seamlessly connected strategic convoys with dismounts, sensors, vehicles, and other supporting assets—enabling and defending a mobile command-and-control capability. In doing so, the company leveraged its work with U.S. Global Strike Command and the Air Force Research Lab on the WaRTAK and follow-on ROP programs.
At the White Sands Missile Range, in New Mexico, Persistent used its Cloud Relay edge-extension to feed treated sensor data to the Unified Data Library, a cloud-based architecture used to build Common Operating Pictures (COPs). “We also networked other enabling connectivity,” Robenhymer said. “For example, we augmented 5G in austere areas, which is an amazing capability.”
Finally, at Andrews AFB, in Maryland, Persistent helped the various COPs visualize their data for distinguished visitors sitting in on On-Ramp 2 and gave members of the All Domain Operations Center a two-way communications path that ran all the way down to the individual dismount at the edge.
“In all, we were connecting sensor to shooter, connecting vehicles, platforms, people, and data all residing on our scalable, low-latency, high-bandwidth wireless network with room to spare for additional capabilities, such as counter-UAS or controlling drone swarms,” Robenhymer said.