Mobile Force Protection Aims to Thwart Adversaries’ Small Unmanned Aircraft

135 views Leave a comment

Three teams comparison to rise real-time insurance of belligerent and nautical convoys by advancing record to fast vacate antagonistic unmanned aircraft systems

Image Caption: DARPA’s Mobile Force Protection (MFP) module seeks to rise novel, flexible, and mobile invulnerability systems and member technologies to urge real-time insurance of belligerent and nautical convoys opposite several tiny unmanned aircraft complement (sUAS) threats and tactics.

DARPA’s Mobile Force Protection (MFP) module focuses on a plea of augmenting regard to a U.S. military: tackling a proliferation of small, unmanned aircraft systems (sUASs). These systems—which embody fixed- or rotary-wing aircraft and have countless advantages such as portability, low cost, blurb availability, and easy upgradeability—pose a fast-evolving array of dangers for U.S. belligerent and nautical convoys.

Countering these threats in genuine time requires a operation of record advances to capacitate fast detection, identification, tracking, and neutralization of counter sUASs—all while mitigating material damage. MFP, launched after DARPA released a Request for Information (RFI) final year, aims to grasp these goals by building scalable, modular, and affordable approaches that could be deployed within a subsequent 3 to 4 years and nimbly rise with advances in threats, tactics, and technology.

To assist a growth of counter-sUAS capabilities and their near-term introduction to a field, a Agency recently awarded Phase 1 agreements for MFP to 3 teams, led by Dynetics, Inc. (Huntsville, Ala.), Saab Defense and Security USA, LLC (East Syracuse, N.Y.), and SRC, Inc. (North Syracuse, N.Y.).

“The 3 teams we’ve fabricated have innovative ideas for a versatile, layered invulnerability complement that could strengthen convoys on a pierce from mixed tiny unmanned aircraft systems in genuine time,” pronounced Jean-Charles Ledé, a module manager in DARPA’s Tactical Technology Office (TTO). “Each group will now work to confederate novel ideas for modernized sensors and neutralization approaches into a common horizon emphasizing reserve for municipal bystanders, palliate of operation, and low size, weight, power, and cost. Our idea is a record proof complement that could fit onto now deployed tactical belligerent vehicles and nautical vessels—getting modernized and upgradeable capabilities fast to a warfighters who need them.”

To assistance speed growth and promote interoperability of MFP’s capabilities, DARPA has comparison a U.S. Army’s Maneuver Aviation and Fires Integration Application (MAFIA) service-oriented design as a common horizon for a data-fusion engine, decision-aid algorithms, and user interface, as good as a fortitude for a teams’ authority and control (C2) software. Already fielded by several Defense Department (DoD) programs of record, MAFIA supports mixed handling systems and provides services, libraries, common applications, and a module growth pack for performer integration. These facilities will promote origination of MFP’s envisioned plug-and-play complement able of integrating new sensors and rising technologies.

In further to all DoD Services, DARPA is operative closely on MFP with a Department of Homeland Security’s Science Technology Directorate and a U.S. Coast Guard.

The MFP module is aiming for 3 phases punctuated by alfresco demonstrations involving increasingly worldly threats and scenarios. The idea is for a record proof complement to uncover initial functionality during a finish of Phase 1 and gradually improve, culminating in a full-capability proof on a relocating car or vessel by a finish of Phase 3.

At a end of any alfresco demonstration, DARPA skeleton to offer a Services and other U.S. Government agencies a event to account extended margin evaluations of a stream record proof system. DARPA’s idea is to rise a halt versions and a final antecedent complement to accommodate a needs of a extended series of intensity U.S. Government and blurb users.

Source: DARPA



Comment this news or article