Three operational vignettes.
Cross-border grid stress correlated with GNSS interference patterns.
Mid-January. A cold front sits over the eastern Baltic for the second week. Load curves on EE and LV start tracking above 90% of their 24-hour peaks every evening at 17:00. Wardstone shows both zones in the elevated band simultaneously, with LT trending up. Twelve hours earlier the GNSS layer showed a high-interference cluster along the EE coastline. None of these signals on their own is alarming.
A duty officer in a national civil-protection centre opens the console at the start of her shift and sees the picture the layers form together. She drafts a coordination message to municipal energy contacts in the three highest-load LV regions, asking them to confirm reserve generation status. The grid does not fail that evening. The point of the picture was that she did not have to wait for it to.
Hazard alerts overlaid with critical-infrastructure exposure for one municipality.
A MET-derived severe-weather flag fires at a Baltic capital. GDACS upgrades the regional storm event to orange. The active-hazards layer pins both signals to the same coastal stretch within fifteen minutes.
In the operator view, a municipal preparedness officer toggles on the critical-infrastructure context layer. The map shows three transmission-level substations and two hospitals within the storm corridor. She filters the event log by region, sees the upstream feed already flagged a power-supply impact on a neighbouring zone last winter, and routes a precautionary sheltering message to her three highest-exposure parishes before the wind peak arrives.
No part of this requires the system to predict the storm. It only requires the picture to be assembled before the storm hits.
GNSS jamming clusters read alongside open maritime and airspace incident reporting.
Over a three-day window the daily GNSS aggregate shows a persistent high-interference band drifting west along the Gulf of Finland. The pattern is not unusual on its own — interference has been a chronic baseline since 2022. What is new is the spatial coherence: the band tracks alongside a cluster of open NOTAMs and a Baltic-area maritime advisory in the same window.
A national-level resilience advisor uses Wardstone to assemble that picture across domains in one view, with each underlying source cited. He flags the cluster for the inter-agency morning brief, attaches the source links directly, and recommends a watch posture for the relevant coastal counties.
The system does not say a hybrid escalation is under way. It says the signals worth a second look are clustering. That is the call it is designed to support.
These vignettes describe the operator-tier view. The public console shows the open-data half.
If your civil-protection mandate has a use case that does not fit these three, we want to hear it. The roadmap is open.