Solutions

Stratumly for utilities

Run your network from registry to twin in one platform: pipes and valves on the map, field inspections in your hand, control-room dashboards, and live twins of the assets that matter most.

What you get

Pipe, valve, meter and hydrant registers, leak and break reports, AI-driven LiDAR pipeline surveys, and live twins of pumping stations and treatment works, all in one platform sized for regional-utility budgets.

Pain we’re replacing

Enterprise GIS contracts sized for the largest national utilities, not regional ones
Field inspections trapped in standalone capture apps that don't talk to the register
Pumping-station twins linked to the asset register by spreadsheet

How the three pillars apply

Stratumly is one platform with three layers. Here is what each layer does and why it matters for utilities.

Pillar 0

Spatial Data Platform

The pipe, valve, hydrant and meter register your network team needs, with leak and break tickets pinned to the map and operational dashboards for the control room.

The horizontal foundation for every operator who needs to know where their assets are and what's happening to them.

Explore Spatial Data Platform

Pillar 1

Inspection & Intelligence

Drone and fixed-wing LiDAR over your pipeline corridors, with AI flagging leaks, vegetation encroachment and easement non-compliance for human review.

Turn periodic drone and LiDAR surveys into continuously-updated intelligence about your asset base.

Explore Inspection & Intelligence

Pillar 2

Digital Twin Studio

Live twins of pumping stations, treatment works and critical pressure-management points, fed by your existing SCADA and IoT.

A premium tier for the most critical assets that justify a deep, sensor-bound 3D model.

Explore Digital Twin Studio

One platform for your whole estate

The same map, register, and audit trail that operators in utilities use to see every asset, defect, and work order in one place.

Stratumly 2D map and asset register, showing layers, a selected feature, defects, and a linked work order — Illustrative product views. Sample data shown.

Who uses Stratumly day-to-day

One tenant, multiple roles. Each role has the surfaces they need without the licence overhead of a separate product per persona.

Network operations supervisor: Watches the live pressure / flow dashboard, triages overnight leak alerts, dispatches field teams, signs off the daily ops report.
GIS / asset data manager: Owns the pipe and valve registers, runs spatial analyses for AMP submissions, publishes flood-risk and works-notification maps to councils.
Field engineer / leak technician: Picks up tickets on tablet, navigates to the asset, files a leak / repair form with photos, geometry and meter reading; submission auto-creates a defect feature.
Pumping-station / treatment-works engineer: Monitors live IoT bindings on plant twins, raises work orders against twin elements, runs what-if simulations before pressure-management changes.
Regulatory / DWMP lead: Pulls geometry, condition and incident data from the same tenant for AMP, DWMP and PR submissions; no spreadsheet stitching.

Concrete workflows

Real scenarios, end-to-end, off the same map and audit log. Not slideware: each step maps to a documented surface.

Overnight leak triage

A pressure-zone alarm fires at 03:14. By 07:30, the field team has a routed dispatch list with photos, valve isolation suggestions and a customer-comms map.

SCADA pushes the pressure anomaly into the IoT stream feeding the network dashboard.
On-call supervisor opens the affected zone on the map; pipes, valves and customer connections render with attribute history.
A buffer + spatial-join geoprocess returns the customers in the zone and the upstream isolation valves, ranked by impact.
Field tickets are issued via a leak-investigation form; submissions auto-create defect features and the form's clientSubmissionId guarantees offline retries don't duplicate.
The supervisor publishes a public-share link of the customer-impact map for the comms team to embed in the customer portal.

AMP / DWMP submission build

Asset team builds the regulator submission for the next AMP cycle in days, not months, off live data.

Filter the pipes layer to the cohort being reported on (material, age, condition score).
Run buffer + intersect against the EA flood-zone layer; output is a new feature class on the map.
Heatmap defect submissions over the last 24 months by severity to demonstrate intervention prioritisation.
Bind the resulting layers and aggregate stats to a dashboard; export the dashboard as a regulator-ready PDF with full audit trail back through submissions, features and edits.

Pressure-management change with a twin

Engineering team is reducing pressure across a DMA. The change goes through a twin simulation before it touches live valves.

Open the twin of the relevant DMA (pumping station + critical control points), bound to live SCADA.
Edit the proposed pressure setpoint on the twin; the simulation surrogate returns expected boundary pressures and burst-risk scores.
Compare against current operating envelope; if acceptable, generate a work order against the twin element with attached method statement.
Field team executes; the post-change pressures land back via SCADA and confirm the simulation envelope.

Asset register templates we ship

Starter feature classes with sensible attribute schemas. Edit the schema, add fields, or replace it; templates are starting points, not lock-in.

Layer	Geometry	Starter attributes
Pipes	`LINESTRING`	`materialdiameter_mmyear_laiddepth_mpressure_zonecondition_gradelast_inspected_at`
Valves	`POINT`	`valve_typediameter_mmoperablelast_exercised_atisolation_zone`
Hydrants	`POINT`	`flow_rate_lpmstatic_pressure_barlast_tested_atfire_authority_id`
Meters	`POINT`	`meter_serialsize_mmlast_read_atamr_enabledtariff_band`
Pressure / DMA zones	`POLYGON`	`zone_codetarget_pressure_barmin_night_flow_lpscustomer_count`
Leak / break tickets	`POINT`	`severityreported_atisolation_statusestimated_loss_lpmlinked_pipe_id`

Integrations & data sources

EA flood-monitoring API (live warnings)
Polled every 15 min, rendered as a system-managed feature class on the same map.
Available
EA flood-risk zones
Static planning polygons, drop the shapefile in the seed directory and re-seed.
Available
SCADA / IoT historians (OPC-UA, MQTT, Modbus)
Live values bind to twin components and dashboard widgets via WebSocket.
In development
DWMP / WRMP regulator submission exports
Curated PDF / GeoPackage exports off live geometry and condition data.
In development
OS Open Data (MasterMap, OpenRoads, OS Open Greenspace)
Reference layers under tier entitlement.
Planned

Regulatory & compliance fit

AMP (Asset Management Plan) cyclesOfwat: Spatial analysis + dashboards produce live cohorts and intervention metrics off the same data the network team works in.
DWMP (Drainage and Wastewater Management Plan)Defra / EA: Capacity, flood-risk and customer-impact reports built off live pipe / catchment / flood-zone layers.
WRMP (Water Resources Management Plan)EA / Ofwat: Source, treatment, and demand data unified on the map; what-if scenarios run on twins where available.
Reservoirs Act 1975 supervisory inspectionsEA: Survey ingest + annotation workflow lands inspector findings as features in the dam / reservoir layer with full audit log.

Sample dashboard KPIs

What a Monday-morning view looks like. Every KPI binds to live data in the same tenant; no copy-paste, no overnight ETL.

Active pipe breaks (last 24h)
Mains repaired vs. mains burst (rolling 28d)
Leakage rate by DMA (Ml/d)
Average minimum night flow per zone
Pumping-station availability (%)
Customer minutes lost (CML)

Procurement & deployment

Stratumly is procurable via direct contract today; Crown Commercial G-Cloud listing is on the roadmap for FY27. Sovereign deployment in your tenancy is supported on ENTERPRISE tier.

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