Use Cases
Our deterministic EW architecture is a purpose-built solution designed to solve critical capability gaps in modern warfare. The following scenarios illustrate the asymmetric advantage provided by our technology in near-peer conflicts.
01. Force Protection & Area Denial
Environment
A patrol moving through a high-threat urban environment or a Forward Operating Base (FOB) establishing a defensive perimeter.
Conventional Failure & FI Systems Solution
Conventional Failure: Standard jammers create a binary choice: either jam everything and blind your own forces (fratricide), or leave exploitable gaps in coverage. Adversaries use these gaps to detonate IEDs via simple cell phones or to coordinate attacks with commercial radios.
FI Systems Solution: Our system creates a mobile, selective-denial bubble. The "Radar Physics" Paradigm allows our man-portable unit to deny the spectrum (cell, radio, internet) with high-power pulses, while our Deterministic Sequencing ensures all friendly communications pass through the interference untouched. This provides total protection for the unit without sacrificing their ability to communicate and coordinate.
02. Covert Special Operations
Environment
A small special operations team operating deep within a GPS-denied, adversary-controlled area with a high density of RF sensors.
Conventional Failure & FI Systems Solution
Conventional Failure: To coordinate a multi-asset electronic attack, the team must use active C2 radio links. These transmissions create a significant electronic signature, revealing their position and intent, leading to mission compromise.
FI Systems Solution: Using our Linkless Tactical Coordination, all assets are pre-loaded with a deterministic sequence. At the designated time, effectors begin emitting without any active cross-talk. Friendly comms remain clear due to predictive filtering. The team executes a complex, synchronized EW effect while remaining electronically silent, dramatically increasing survivability and mission success probability.
03. Unmanned & Autonomous Systems (UAS)
Environment
A swarm of autonomous drones tasked with executing a coordinated electronic attack or ISR mission in a heavily contested airspace.
Conventional Failure & FI Systems Solution
Conventional Failure: Swarms typically rely on a central controller or a mesh network for coordination. These communication links are primary targets for adversary jamming, leading to fragmentation of the swarm and mission failure.
FI Systems Solution: Our Unified Domain Synchronization protocol allows each autonomous platform to be pre-loaded with an instruction package. By referencing a common execution time, the entire swarm can execute simultaneous or complex, sequenced effects on a target without a single C2 transmission during the terminal phase of the mission. This creates a resilient, decapitation-proof offensive capability.