DENODL® App: Cloud-based platform for data visualization and management
DENODL® App collects and displays data from irrigation sectors in real time.
Capable of managing data and analyzing weather forecasts, it delivers agronomic insights to enhance agricultural quality and production, optimize plant care in gardening, and drive resource efficiency and cost savings.
Using agronomic soil data and its interaction with irrigation, the system analyzes soil behavior in each sensorized irrigation sector, tailored to the type of crop.
By combining historical data with weather forecasts and other layers of information, through advanced algorithms (IA) for data interpretation, the system generates a weekly report offering optimal and easy-to-understand irrigation recommendations..
DENODL® App allows the user to create a Digital Twin of irrigation areas, enabling real-time, remote monitoring of water tension for crops in farms, urban areas, or sports facilities.
The HYDROBALL® connects via cellular network (NBIoT) or LoRaWan with DENODL® App, providing real-time data on the conditions of the soil. DENODL® App enables to visualize the data collected by the probes, cross-reference this data with the weather forecast and other layers of information.
This data is stored and displayed on the web and mobile platform, with restricted user access, allowing irrigation managers or urban gardening teams to efficiently plan and control the water management in each area.
Likewise, this digital solution allows to integrate irrigation systems of the main world brands so that we join ground probes and applying Artificial Intelligence the software provides us with irrigation recommendations or allows us to open or close the actuators manually, programmed or autonomously, according to the water needs at any time and area.
This digital solution allows for the integration of irrigation systems from leading global brands. By combining soil data with irrigation management, the software offers tailored irrigation recommendations or enables manual, programmed, or autonomous control of actuators, ensuring water needs are met efficiently across any area and time.
