A physics simulation engine that processes sensor data and intelligence feeds provided by the customer into a live, physics-consistent picture of the operating environment. Any viewer — a browser, a tablet in the field, a planning console, an autonomous platform — subscribes to a viewport and receives the picture, streamed continuously.
Seven simultaneous 3D field simulations — electromagnetic, acoustic, thermal, contamination, ground contamination, radiation dose rate, and composite safety — running at 30Hz with advection, diffusion, and decay.
Agent-specific contamination physics with NATO STANAG 4701 NBC report ingestion. Vapor pressure curves, ground deposition, dosimetry tracking, and toxicology thresholds per agent. Live 3D hazard volumes that evolve in real time.
Electromagnetic and acoustic propagation computed with terrain occlusion and line-of-sight analysis. The system knows where signals reach and where terrain creates shadows — continuously, not on demand.
Corridor planning through volumetric threat fields. Not shortest path — safest path given the actual physics. Accounts for EM jamming zones, contamination plumes, acoustic detection envelopes, and terrain simultaneously.
Geographic partitioning across nodes with boundary synchronization. Each node owns a slice of the planet. The physics is continuous across boundaries. Scales horizontally to any area of interest.
Any viewer subscribes to a viewport by geographic bounds. The system streams only what changed — efficiently, in real time. Session management handles reconnect, viewport panning, and multi-viewer collaboration.
The World Model gives operators and autonomous systems a continuously updated, physics-grounded picture of the operating environment. EM propagation, CBRN hazards, acoustic fields, thermal signatures — all computed in real time over real terrain, all streamed to anyone who needs them.
Every decision — human or automated — is grounded in what the physics actually predicts at that moment. The picture evolves as conditions change. Confidence decays over time. What was safe five minutes ago may not be safe now, and the system reflects that.
When a contamination event occurs, the system doesn't wait for a manual report. It ingests the NATO NBC report, resolves the agent properties, computes wind-driven dispersion with terrain effects, and streams the evolving hazard to every connected viewer. Route planners automatically account for the new threat field. Downstream AI systems receive updated safety scores in real time.
The World Model also serves as the sensory cortex for the Cognitive Warfare Engine. Intelligence claims are validated against the live physics. Hypothetical adversary actions are tested by forking the world state and running the simulation forward. The cognitive engine doesn't reason in a vacuum — it reasons against the physical truth.
A live Common Operating Picture viewport streaming from the World Model. What you see is one view into the platform. What you don't see: the physics engine computing volumetric fields continuously, the cognitive engine reasoning against them, and the full platform processing the kill chain behind it.