The grid, instrumented.
Generation, transmission, water, and gas distribution. SCADA modernisation, OT cybersecurity, and the field-engineering reality of utility networks — including across Sudan and East Africa where bandwidth is intermittent and stakes are high.
Critical infrastructure. Working in production.
Utility SCADA does not get the option to fail gracefully. A water network that goes dark is a public-health incident. A substation that drops a feeder is a regional news story. The systems you inherited were specified in the 1990s and have been patched ever since. The vendor you originally bought from has been acquired twice. Your operators know which alarms to ignore. None of this is a position to be in.
We modernise utility SCADA without staged outages — running the new system in parallel, cutting over feeder by feeder, validating each step against historian data. We have done it in temperate climates and in Khartoum at 45°C with intermittent fibre. The difficulty changes. The discipline does not.
Discuss your projectBuilt for utility reality.
Every capability below has been delivered on networks where downtime is measured in customer-minutes, not just plant minutes. We design for the worst day, not the demo.
Distribution SCADA
Modernisation of water, gas, and electricity SCADA from legacy stacks. Phased cutover, no scheduled outage windows, full historian continuity.
Telemetry & comms
NB-IoT, LoRaWAN, cellular, and licensed radio. Designed for sites with intermittent power and bandwidth — buffering and store-and-forward built in.
OT cybersecurity
IEC 62443 and India CERT-In OT guidance. Zone & conduit modelling, jump-host architecture, vendor-access auditing for utility environments.
Asset visibility
Passive discovery (no scanning of fragile RTUs) — Claroty, Nozomi, Dragos, or open-source. Inventory you can take to a regulator.
Loss-reduction analytics
Non-revenue-water, AT&C losses, and consumption-pattern analytics — calibrated against meter data, not industry averages.
Regulatory reporting
CEA, CERC, CPHEEO, and audit-ready disclosures generated from plant data — not assembled from spreadsheets the week before submission.
Four stages, without dropping the network.
Survey
Site-by-site walk-down. RTU inventory, comms paths, power resilience, physical access. Includes the substations the original drawings forgot.
Parallel design
New system designed and stood up in parallel. Historian replication. We never ask you to switch from one to another in a single window.
Phased cutover
Feeder by feeder, area by area. Each phase has a documented rollback. Operations leadership signs off each gate.
Run-and-prove
Two months of dual-system operation, comparative reporting, and operator training in local language. Then the legacy system is decommissioned.
What you can expect.
- A SCADA platform that survives the next ten years — supportable, documented, and vendor-neutral at the protocol layer
- Cyber posture that maps explicitly to IEC 62443 and to your national regulator's OT requirements
- Telemetry uptime that holds through monsoon, sandstorm, and grid failure — engineered for the field, not the lab
- Operators who trust the new HMI within weeks, because they were involved from the survey onwards