Real-time hazard modeling from incident reports and sensor data provided by the customer. Chemical spills, industrial accidents, radiological incidents, and natural disasters — live 3D contamination tracking, safe corridor routing, and coordinated response streamed to every responder in the field.
Agent-specific contamination physics — vapor pressure, wind-driven advection, terrain channeling, ground deposition. The same engine that models battlefield CBRN models an industrial chlorine leak or a nuclear facility incident. Technical detail.
The contamination plume is a live 3D volume, not a circle on a map. It evolves at 30Hz as wind shifts and conditions change. Any connected device — tablet, console, planning system — sees the current hazard in real time. Technical detail.
Evacuation routes and responder corridors update automatically as the hazard evolves. The route planner accounts for the actual contamination field, terrain, and wind — not a static template drawn an hour ago.
Tracks cumulative exposure per person for radiological and chemical events. Alerts when AEGL thresholds are approached. Responder rotation decisions are informed by actual dose data, not time-based estimates.
Full operator console for emergency directors. Same live situational awareness as the military system, with no classification overhead. Separate access controls, separate operational lens, shared ground truth. Technical detail.
Population movement monitoring from open sources — refugee flows, IDP movements, border crossing anomalies. Informs evacuation planning and resource allocation during large-scale emergencies. Technical detail.
Run simulated CBRN incidents, industrial accidents, and multi-agency response exercises in a self-contained training environment. Physics-accurate contamination modeling with realistic plume behavior — not scripted playback. Replay and review with forked world states for exploring what-if alternatives.
The physics that models sarin on a battlefield models chlorine at a water treatment plant. The advection-diffusion solver doesn't care whether the contamination source is a munition or a ruptured pipeline. Wind is wind. Terrain is terrain. Vapor pressure is vapor pressure.
The same physics-accurate hazard prediction serves both military and civilian operations. A live 3D hazard volume that updates as the situation changes — streamed to a tablet at the incident command post.
When the emergency is also an attack — a hybrid scenario where infrastructure compromise accompanies military action — the civil and military command consoles share the same live picture through shared situational awareness.