Stop Guessing Where Your Water Is Going. Calculate Exact Losses Without New Hardware.
The remote diagnostic engine that cross-references AMI, DMA bulk flows, and pressure logs to mathematically isolate physical leaks from commercial theft. Recover lost revenue. Eliminate blind field patrols.
Transform NRW From a Technical Problem to a Financial Recovery Strategy
Quantifiable impact across operations, revenue, and capital expenditure
OPEX Reduction
Cease deployment of acoustic logging crews on zero-probability sectors. Dispatch exclusively to algorithmic anomalies.
Revenue Recovery
Identify specific customer accounts with degraded mechanical meters or illegal bypasses before the next billing cycle.
Zero CAPEX
Utilize existing telemetry. No physical sensors or loggers to install.
How The Engine Works
Three-step process from data to actionable field directives
Data Ingestion
Securely upload historical billing data, DMA bulk inflows, and SCADA pressure logs via CSV or API.
Algorithmic Segregation
The engine reconciles the top-down water balance, mathematically separating background leakage from commercial anomalies.
Targeted Dispatch
Receive a prioritized list of exact coordinate locations and customer account numbers requiring physical inspection.
Traditional Methods vs. Remote Diagnostics
Why field-based approaches are obsolete
| Capability | Traditional Methods | Remote Diagnostics |
|---|---|---|
| Labor Model | High physical labor. Crews in field 24/7. | 100% automated analysis. Crews dispatched only to high-probability sites. |
| Detection Scope | Hunts for physical leaks only. | Identifies physical leaks AND commercial theft AND meter failure. |
| Capital Requirements | Massive CAPEX for acoustic loggers, correlators, pressure sensors. | Zero hardware required. Utilizes existing telemetry. |
| Coverage Timeline | Months to cover a network. Reactive approach. | Instant analysis of historical data. Proactive intelligence. |
Built on Utility-Grade Operational Reality
This system is not theoretical software. It is engineered based on active utility management protocols controlling over 40,000 connections. Designed specifically to bypass the limitations of standard hydraulic modeling and deliver immediate field directives.