Peraton Labs has been awarded a contract from the U.S. Army Rapid Capabilities and Critical Technologies Office (RCCTO) to adapt its multifunction radio frequency (RF) platform manager to provide real-time, automated mission planning and execution for cyber electromagnetic activities (CEMA) on multi-function Army platforms. Peraton Labs will extend, integrate, demonstrate, and test the solution, which uses machine learning (ML) to dynamically allocate RF resources, manage disparate CEMA capabilities, and meet objectives for multi-domain operations (MDO).
Army platforms that leverage open standards can deploy a variety of disparate and concurrent CEMA activities. This provides increased flexibility and capability, which are critical to supporting MDO against peer and near-peer adversaries. However, it also poses significant new challenges in orchestrating diverse activities, managing shared platform resources, and determining optimal actions – while also incorporating situational awareness at the tactical edge and adapting to changes automatically. Multi-function Army platforms require solutions that can process tactical node sensor data in real-time and dynamically plan and reprogram the disparate CEMA activities to meet mission objectives.
Peraton Labs’ multifunction RF platform manager provides ML-based resource management and planning capabilities for multi-function systems. It uses our innovative technology for balanced RF resource allocation for heterogeneous multi-objective systems (BRAHMS). BRAHMS is scalable and has a low-overhead design suitable for use in resource constrained environments, such as low size, weight and power (SWaP) dismounted systems. It features an open architecture for seamless integration with third-party platforms and systems. BRAHMS uses sophisticated ML techniques to optimize resource allocations and dynamically adjust to changing objectives and conditions. It delivers superior performance for real-time resource management on modular RF systems supporting communications, electronic warfare (EW), and radar, as demonstrated in previous testing.
On this contract, Peraton Labs will adapt our multifunction RF platform manager to support the modular open systems approach (MOSA) interface standards and extend its functionality to provide additional cyber resource tasking. We will integrate our solution into Army platforms and conduct demonstrations and field testing.
“We look forward to extending our current multifunction RF platform manager to deliver a portable, autonomous solution that supports MDO within a contested radio frequency (RF) environment,” said Petros Mouchtaris, Ph.D., president Peraton Labs. “Our solution is not only easily extensible via open interfaces, but it also easily scales from individual platforms to multiplatform battlefield management and orchestration.”
Contact us for more information: [email protected].
Army platforms that leverage open standards can deploy a variety of disparate and concurrent CEMA activities. This provides increased flexibility and capability, which are critical to supporting MDO against peer and near-peer adversaries. However, it also poses significant new challenges in orchestrating diverse activities, managing shared platform resources, and determining optimal actions – while also incorporating situational awareness at the tactical edge and adapting to changes automatically. Multi-function Army platforms require solutions that can process tactical node sensor data in real-time and dynamically plan and reprogram the disparate CEMA activities to meet mission objectives.
Peraton Labs’ multifunction RF platform manager provides ML-based resource management and planning capabilities for multi-function systems. It uses our innovative technology for balanced RF resource allocation for heterogeneous multi-objective systems (BRAHMS). BRAHMS is scalable and has a low-overhead design suitable for use in resource constrained environments, such as low size, weight and power (SWaP) dismounted systems. It features an open architecture for seamless integration with third-party platforms and systems. BRAHMS uses sophisticated ML techniques to optimize resource allocations and dynamically adjust to changing objectives and conditions. It delivers superior performance for real-time resource management on modular RF systems supporting communications, electronic warfare (EW), and radar, as demonstrated in previous testing.
On this contract, Peraton Labs will adapt our multifunction RF platform manager to support the modular open systems approach (MOSA) interface standards and extend its functionality to provide additional cyber resource tasking. We will integrate our solution into Army platforms and conduct demonstrations and field testing.
“We look forward to extending our current multifunction RF platform manager to deliver a portable, autonomous solution that supports MDO within a contested radio frequency (RF) environment,” said Petros Mouchtaris, Ph.D., president Peraton Labs. “Our solution is not only easily extensible via open interfaces, but it also easily scales from individual platforms to multiplatform battlefield management and orchestration.”
Contact us for more information: [email protected].