520 ITU‐T's Technical Reports and Specifications f. Supervisory control and data acquisition (SCADA) When incorporated into water management systems, supervisory control and data acquisition (SCADA) are computer‐controlled systems that contain a large variety of communication systems, allowing to monitor and control water treatment and distribution, as well as wastewater collection and treatment. The system allows for supervision through data acquisition and management, and has the ability to process and send commands within the system. The communication system may involve radio, direct wired connections or telemetry. An example of the structure of SCADA software is presented in Figure 10. Source: Automation World, 2014.29 Figure 10 – Example of SCADA software, Western Municipal Water District (WMWD), California Utilities have been using SCADA systems managing real‐time alarms and efficiently operate plants and networks. In some case, SCADA systems are going beyond their native functionalities by proposition optional modules on modelling or optimization. Even if these functions are described in the next chapter, a few examples of higher‐level applications can be listed; such as determining times of peak water use, identifying potential system leaks, and setting billing rates, among others. Globally speaking SCADA systems have contributed to reduce the operating costs of utilities, and have improved water distribution to households, businesses and industry. The monitoring and control functionalities of SCADA systems can help utilities to protect their infrastructure and prevent severe degradation. The implementation of SCADA has been associated to 30% savings on energy used to manage water systems, 20% reduction on water loss and 20% reduction in disruption30. Usage of SCADA as part of urban systems can also enhance disaster preparedness through storm water management, as well as support the remote operation and monitoring of major dams and weirs. g. Models, optimization tools and decision support Model‐based water management has evolved over the years to improve the quality, quantity and operations costs of the global water supply through comprehensive modelling applications. These modelling software incorporate, to some extent, processes observed in the real world (e.g. through