The all-seeing command and control platform. Argus maintains one fused, AI-driven picture of the entire battlespace — including the contacts that try not to be seen — and keeps commanding when the network goes down.
Argus is an AI-native command and control platform engineered to give a commander a single, trustworthy operating picture of everything that matters — and to hold that picture together in the environments where existing systems fall apart.
It continuously tracks activity across air, sea, land, space, and the electromagnetic spectrum: conventional traffic, satellite and orbital activity, naval movement, and the dark, off-grid, and non-cooperative contacts that deliberately avoid detection. On top of that feed, state-of-the-art AI detects anomalies, classifies intent, and flags emerging events — incursions, strikes, and developing situations — the moment the signals appear.
Crucially, Argus is built for the contested fight. The full platform runs at the tactical edge and keeps operating through partial or complete loss of connectivity — EW jamming, GPS denial, or severed reachback — then reconciles automatically when links return. New data sources, from organic sensor fields to allied mesh networks, are onboarded fast through an open ingestion fabric.
Six pillars that together close the gaps left by today's command and control systems.
A single fused operating picture across air, sea, land, space, and the electromagnetic spectrum — correlating cooperative tracks, sensor returns, and behavioral signatures into one common operating picture in real time.
Surfaces contacts that deliberately avoid cooperative reporting — aircraft and naval fleets running dark, spoofed or silenced transponders, and unscheduled orbital activity — by fusing non-cooperative signatures rather than relying on a single feed.
State-of-the-art models triage the firehose: detecting anomalies, classifying intent, flagging emergent events such as strikes and incursions, and ranking what matters so operators command the engagement instead of drowning in raw data.
A flexible ingestion fabric that onboards new feeds in hours, not procurement cycles — mesh and tactical radio networks, distributed sensor fields, organic ISR, commercial and partner data, and bespoke pipelines, all normalized into one schema.
Built for the contested fight. Every node runs the full picture locally and keeps commanding through partial or total connectivity loss — GPS spoofing, EW jamming, or severed reachback — then reconciles automatically when links return.
The entire stack runs on a ruggedized box at the tactical edge, in a hardened facility, or in the cloud — without phoning home. No mandatory uplink, no vendor data exfiltration, no single point of failure.
Argus does more than plot contacts on a map. State-of-the-art graph understanding networks ingest every source — sensor returns, signals, tracks, reports, and events — and compile them into a living network of relationships. From that structure, the platform reasons: surfacing hidden connections, predicting what comes next, and acting within authority.
Every entity — a vessel, an aircraft, a unit, a transmission, an event — becomes a node. Argus continuously infers the edges between them, exposing connections no single feed could reveal.
By reasoning over the evolving network, the models anticipate likely next moves, intent, and developing situations — turning a map of what is into a forecast of what is about to happen.
Within operator-defined authority, Argus can act on what the graph reveals — cueing sensors, issuing alerts, and recommending or executing responses at machine speed.
The incumbent platforms in this space share the same structural weaknesses. Argus was designed from the contested edge inward to answer each one.
Legacy C2 platforms degrade to a blank screen the moment reachback is jammed or severed — exactly when the picture matters most.
Systems built on transponder and AIS feeds simply lose anything that chooses to go dark, spoof, or fall silent.
Adding a new sensor or partner feed becomes a multi-month, vendor-gated change request with bespoke engineering fees.
More feeds without fusion means more noise. Analysts spend the fight stitching screens together instead of deciding.
Your intelligence lives in someone else’s cloud, on their schema, under their export terms.
Each Argus node holds the complete fused picture and keeps commanding through total comms denial, then self-reconciles on reconnect.
Dark aircraft, silenced fleets, and unscheduled orbital activity are surfaced by correlating signatures across many sources at once.
New mesh, sensor, or partner feeds are onboarded in hours through a documented integration layer — no gatekeeping.
Models rank threats, detect anomalies, and flag emerging events so the operator commands rather than collates.
Deploy on your hardware, in your enclave, under your control. Open schema, no mandatory uplink, no exfiltration.
From a single ruggedized box at the forward edge to a federated mesh across a theater — Argus runs where the mission is, with no mandatory uplink.
Ruggedized node alongside the force. Full picture, zero reachback dependency. Designed to keep fighting through jamming.
On-premise within a sovereign or classified enclave. Air-gap compatible, with controlled cross-domain synchronization.
Many nodes share a self-healing common picture. Any node can drop or rejoin without losing the operating picture.
This brief is intentionally high-level. Sensor fusion methods, model architectures, ingestion interfaces, and resilience mechanisms are disclosed only to qualified organizations under evaluation agreement. Technical documentation, interface specifications, and a supervised live demonstration are available as part of the procurement and testing process.
For qualified defense and government organizations evaluating Argus for procurement or field testing. Reach out to arrange a classified technical briefing and a supervised demonstration.
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