ConstellationOS
Commit policy-bound reroutes before traffic loss
ConstellationOS forecasts link degradation minutes ahead—then executes reroutes under your policy across RF, ground, and ISL. One API for multi-vendor fleets.
01 / Precision forecasting
Forecast early. Act decisively.
Predict link degradation minutes ahead with physics-informed models, operator-grade precision, and execution-linked confidence.
- Horizon-aware forecasting: Surface rain fade, handoff risk, and congestion trends before SLA impact windows.
- Orbital-native modeling: Model RF dynamics and orbital geometry directly for constellation operations.
- Execution-linked confidence: Bind each forecast to policy branch, causal context, and committed execution path.
02 / Autonomous execution
Commit before the path fails. Stay inside policy.
Execute policy-bound reroutes before packet loss while preserving network state across links, beams, and gateways.
- Low-latency commits: Commit reroutes on timelines aligned to topology constraints and queue priority.
- State-preserving handoffs: Preserve session and queue continuity across beams, gateways, and inter-satellite links.
- Operator-governed autonomy: Enforce human approval gates where required and autonomous execution by policy default.
03 / Universal integration
One API. Any fleet architecture.
Operate mixed-vendor constellations through one control plane, one telemetry schema, and one execution layer.
- Cross-vendor normalization: Ingest and control diverse network elements without bespoke integration per provider.
- Deployment sovereignty: Run where policy requires: cloud, hybrid, private, or air-gapped.
- Execution-ready API: Stream state, receive events, and trigger actions on timelines that match mission operations.
Ready for a shadow pilot?
Run ConstellationOS against live telemetry with guardrails—measure forecast lead time and simulated reroutes before production traffic moves.