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OpenFlows WaterSight - Water Infrastructure Digital Twin Application
Gain Visibility. Improve Collaboration. Make Better Decisions.

Start on the path to a smarter, more resilient, and sustainable water system. Unify disparate data sources and empower your team to work more efficiently and collaboratively.
What is OpenFlows WaterSight?
OpenFlows WaterSight brings SCADA, GIS, hydraulic modeling, client information, and historical failure data into a connected data environment to deliver cost-effective, real-time operations strategies. A scalable environment provides your entire utility access to critical system and individual asset performance along with risk information, which enhances operations, maintenance, and capital planning decisions. The application alerts you to nonperforming assets or anomalous network conditions, and provides efficient analysis of present, historic, and forecasted performance for all assets to better support the evaluation of the expected benefits and consequences of operational and maintenance actions. Additionally, OpenFlows WaterSight allows you to perform multiple “what-if,” risk, and planning scenarios with the goal of improving service levels and performance while minimizing risk.
Transform Data into Actionable Results and Informed Decisions
Connect All Data Sources
Get real-time IoT, SCADA, GIS, hydraulic modeling, AMR, and CRM customer information in a secure, scalable, cloud provisioned connected data environment.
Gain Actionable Insights
Track, share, and collaborate on water system data efficiently and more effectively.
Make Better Decisions
Streamline interdepartmental work-sharing in a single interoperable solution for powerful decisions.
Optimize Operations
Reduce non-revenue water loss, energy use, and service interruptions.
Fill the Gaps and Risk-proof Your Water System Using the Latest in AI and Analytics
Detect System Anomalies
Understand trends and expected behaviors. Monitor IoT and sensor data in real time. Receive notifications for anomalous behaviors in the system.
Sense and Simulate
Continually update your hydraulic model with boundary conditions from sensors to determine real-time pressures and other parameters, even non-monitored locations.
Control Pressure
Predict service levels to identify excessively high-or low-pressure areas and assess ways for adjusting pumps and regulating valves to balance pressures without disrupting service.
Leverage Smart Technologies To Meet Sustainability Goals
Mitigate Risk
Use network models to test variations in operational strategy, tactics, and emergency protocols in a risk-free way with real-time modeling.
Respond Faster
Identify safe, effective options to address pipe bursts, power outages, fires, and other operational events.
Respond Effectively
Simulate and test different ways that a water system could be operated to improve emergency response, increase efficiency, or save energy.
Meet Sustainability Goals
Minimize energy related to pumping costs while maximizing system performance. Reduce emissions and reduce carbon footprint.
Take a Data-driven Approach to Prioritize Capital Spending
Querying Across Multiple Datasets
Use flexible and customizable rules by querying across multiple datasets to support the best capital planning decisions.
Create Risk Scenarios
Easily calculate likelihood and consequence of failures, combining them by creating and comparing different risk scenarios to drive decisions.
Engage Stakeholders
Visualize and communicate results with different stakeholders and prioritize capital improvement projects.