Defending forward positions from drone swarm attack.

FOB perimeters, convoy corridors, and airfield environments share a common vulnerability: coordinated drone attack outpaces human response time. ARES-1 removes the operator from the per-target decision loop.

Forward operating base perimeter at dusk with counter-drone system mounted on a vehicle
Environment Forward deployed
RF Emission EMCON compatible
Response Time < 3 s end-to-end
Crew Required 1 operator

Military Threat Scenarios

01
Scenario A

FOB Perimeter Defense

A coordinated swarm of 6–12 commercial quadrotors approaches the FOB from multiple vectors at low altitude. Electronic countermeasures have been attempted and failed due to frequency-agile controllers. ARES-1 initiates autonomous tracking and engages the highest-threat tracks sequentially without operator intervention per-target.

Response Initiation < 3 seconds
Tracks Managed Up to 8 simultaneous
RF Emission None required
02
Scenario B

Convoy Air Protection

Vehicle-mounted ARES-1 provides moving air protection along a convoy corridor. The system tracks threats across a 2.8 km radius as the convoy moves. Engagement parameters are configured to prioritize low-altitude, high-speed inbound contacts while excluding friendly air traffic via ADS-B cross-correlation.

Configuration Vehicle-mounted (Mode B)
Coverage Radius 2.8 km moving
Friendly Exclusion ADS-B cross-reference
03
Scenario C

Airfield Perimeter Engagement

Fixed-wing and rotary-wing military aircraft require an EMI-free operating environment. Electronic jamming in or near an airfield creates interference risk for avionics and instrument landing systems. ARES-1's defeat mechanism is kinetic — the intercept produces no RF output. The phased-array radar sensor operates on X-band and does not emit in the frequency bands used by airfield navigation or communications systems. No EMI mitigation required for airfield operations.

Jammer RF Output None — kinetic defeat only
Configuration Fixed installation (Mode A)
Coverage 3.5 km radius

Military-Specific Requirements

Defense procurement buyers evaluate counter-UAS systems against a defined set of military requirements. The table below reflects ARES-1's current design status — not certified status. Certification timelines are available on request.

Requirement Description Status
IFF Compatibility Identification Friend/Foe cross-correlation to prevent engagement of friendly UAS ADS-B integrated
EMCON Operation Emission Control — operation without broadband RF jamming transmission No jamming RF output; radar emission controlled
ROE Support Operator-configurable rules of engagement parameters Configurable at mission start
ITAR Compliance Readiness Design and development process aligned with ITAR awareness from day one Compliance-aware design
STANAG 4586 NATO standard for unmanned control systems interface In development
MIL-STD-810 Environmental Military environmental testing standard (temperature, vibration, dust, rain) Testing in progress

Design compliance means ARES-1 is built with these requirements in mind from the architecture level. It does not mean ARES-1 has completed formal certification or qualification testing. Full compliance documentation is available under NDA to qualified procurement contacts. We will not represent certification status we have not achieved.

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