Treatment, distribution, collection, and compliance on one live water plane — the main break and quality excursion caught before it reaches a tap, every sample and repair proven on an append-only ledger.
Permit samples on time
100%
Distribution pressure nominal · zero violations
100%
Samples on time
97%
Pressure zones OK
11%
Non-revenue water
3
Open breaks
in spec
Turbidity
100%
Compliance
Treatment, distribution, and collection, live. The agents catch the break and the quality drift before it reaches a tap.
Plant A · turbidity
in spec
Zone 3 pressure
anomaly · possible break
Tank · North
level nominal
Lift station 6
wet-well rising
Chlorine residual
within band
UV disinfection
dose verified
Lead & copper
samples current
Pump station
load spike
Live hydraulic modeling catches the main break before the street floods.
Continuous quality monitoring with autonomous dose adjustment against the standard.
Wet-well and overflow risk modeled to prevent an SSO event.
Sampling and reporting assembled continuously on an append-only ledger.
Root-cause a distribution anomaly.
{
"zone": "District 3",
"event": "pressure drop 22 psi",
"suspected": "12-inch main break",
"impact": "~400 services at risk",
"action": "isolate + dispatch crew"
}Pick an artifact and generate to watch the agent draft it.
Emerging bottlenecks surface here as demand signals — and graduate into live packs through the Capability Gap Radar.
Acoustic and pressure sensing plus AI localize losses continuously instead of via manual survey.
A hydraulic twin optimizes pumping energy and pressure while pre-empting main breaks.
Tightening limits require continuous monitoring and treatment-response evidence, not periodic sampling.
Autonomous aeration and biogas optimization drive plants toward net-zero energy.
Distributed reuse and desal nodes need coordinated, remotely-operated control at the edge.