The agency provides incident reports, sensor readings, and environmental data. Varindor models the hazard in real time, computes safe corridors, tracks exposure, and streams the live picture to every responder in the field.
Agent-specific contamination physics — vapor dynamics, wind-driven dispersion over real terrain, ground deposition. Live 3D hazard volumes that evolve as conditions change. 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 conditions.
Cumulative exposure tracking per person for radiological and chemical events. Alerts when thresholds are approached. Responder rotation informed by actual dose data.
The current hazard picture streams to any connected device — tablets, consoles, planning systems. Responders in the field see the same picture as the incident commander. Technical detail.
CBRN survey drones fly contamination patterns informed by the live plume prediction. Sensor readings feed back into the simulation, refining the model against ground truth. Technical detail.
Simulated CBRN incidents and multi-agency response exercises with physics-accurate contamination modeling. Replay and review with alternative outcome exploration. Technical detail.
Civil protection agencies receive the civilian deployment configuration. The same physics engine and hazard modeling used in military CBRN operations, with independent access controls and no military classification overhead.
When an emergency is also an attack — a hybrid scenario where a CBRN event accompanies infrastructure compromise — the civil protection agency and the military command share the same live hazard picture and the same physics model. Coordination happens through shared situational awareness. The civil protection agency also benefits from the same AI reasoning and physics simulation that the armed forces use, applied to civilian emergency response.