WaterScope's solutions enable real-time data collection and analysis for monitoring and optimizing water, energy, and consumption measurements in residential, industrial, and agricultural settings.

The WaterScope IoT system continuously monitors and analyzes key network parameters, enabling immediate intervention and the analysis of long-term trends. Its devices are easy to install, operate using NB-IoT or LoRaWAN technology, and provide a reliable data connection without the need for a GSM or wired network. Its real-time data and customizable alerts enable fast, informed business decisions and continuous optimization of operational efficiency.

The HAWLE IoT Smart Hydrant enables real-time monitoring of pressure and usage within the drinking water network.

The SGU is a robust and reliable measurement data collection device designed for monitoring complex industrial systems such as drinking water wells, water towers and wastewater treatment plants.

The SQP is a modern IoT-based pressure monitoring device that can be quickly and flexibly installed at different points in the water network.
WaterScope IoT offers innovative wireless solutions for real-time monitoring of water and energy consumption in industrial and agricultural facilities. With our systems, users can optimize their operations, reduce costs, and make their operations more sustainable. We support efficient and safe operations with data-driven decision support and customizable alerts.
Install a monitoring system to increase the efficiency of the municipal water supply network and reduce losses.
Implementing IoT-based irrigation monitoring to optimize water use, increase crop yields, and support data-driven irrigation decisions.
Wireless continuous pressure and flow monitoring to determine optimal pressure levels, reduce network load, and enhance supply reliability.
Since 2016, we have been developing and manufacturing IoT-based data collection and analysis systems that enable our partners to make more informed decisions, optimize their water management processes, and achieve more sustainable operations.




















