Ardefsis Smart Irrigation

It integrates and works with any irrigation system that is already installed

Why choose it?

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There are two main types of smart irrigation technology:
one that is based on weather conditions and atmospheric humidity, and another that is based on soil moisture.
The Ardefsis system combines both of these technologies for improved performance.

There are several reasons to choose a smart irrigation system like the one described:

  1. Water conservation: By monitoring weather conditions and soil moisture levels, a smart irrigation system can help to optimize watering schedules and reduce water waste.

  2. Improved plant health: Overwatering or underwatering can lead to poor plant health and reduced crop yields. A smart irrigation system can help to ensure that plants receive the right amount of water at the right times, improving their health and productivity.

  3. Cost savings: By using water more efficiently, a smart irrigation system can help to reduce water bills and other associated costs.

  4. Compatibility with existing systems: The system can be easily integrated with existing irrigation systems, requiring minimal effort for implementation.

  5. Dual technology: The combination of weather and soil moisture monitoring provides a more comprehensive and accurate view of watering needs, leading to better results.

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Why choose it?

There are two main types of smart irrigation technology:
one that is based on weather conditions and atmospheric humidity, and another that is based on soil moisture.
The Ardefsis system combines both of these technologies for improved performance.

There are several reasons to choose a smart irrigation system like the one described:

  1. Water conservation: By monitoring weather conditions and soil moisture levels, a smart irrigation system can help to optimize watering schedules and reduce water waste.

  2. Improved plant health: Overwatering or underwatering can lead to poor plant health and reduced crop yields. A smart irrigation system can help to ensure that plants receive the right amount of water at the right times, improving their health and productivity.

  3. Cost savings: By using water more efficiently, a smart irrigation system can help to reduce water bills and other associated costs.

  4. Compatibility with existing systems: The system can be easily integrated with existing irrigation systems, requiring minimal effort for implementation.

  5. Dual technology: The combination of weather and soil moisture monitoring provides a more comprehensive and accurate view of watering needs, leading to better results.

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The Ardefis system includes a range of advanced features designed to improve irrigation efficiency and crop health. These features include:

  1. Weather sensors: These sensors are capable of monitoring a variety of weather conditions, including temperature, precipitation, and solar radiation, providing valuable data for optimizing irrigation schedules.

  2. Soil moisture detectors: These detectors operate at multiple depths to measure soil moisture levels and help to determine the watering needs of plants.

  3. Rain gauges: These gauges measure precipitation and can be used to adjust irrigation schedules based on the amount of rainfall received.

  4. Telemetry units: These units use the LoRa protocol to transfer data from the weather sensors, soil moisture probes, and rain gauges in real-time to a data monitoring host. This allows for real-time monitoring and analysis of irrigation conditions.

The Ardefsis system includes a range of advanced features designed to improve irrigation efficiency and crop health. These features include:

  1. Weather sensors: These sensors are capable of monitoring a variety of weather conditions, including temperature, precipitation, and solar radiation, providing valuable data for optimizing irrigation schedules.

  2. Soil moisture detectors: These detectors operate at multiple depths to measure soil moisture levels and help to determine the watering needs of plants.

  3. Rain gauges: These gauges measure precipitation and can be used to adjust irrigation schedules based on the amount of rainfall received.

  4. Telemetry units: These units use the LoRa protocol to transfer data from the weather sensors, soil moisture probes, and rain gauges in real-time to a data monitoring host. This allows for real-time monitoring and analysis of irrigation conditions.

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Remote Control Panel

Remote Control Panel

The remote control panel of the irrigation and watering system provides a range of features and capabilities, including:

  1. Statistical seasonal data: This feature allows for the analysis of irrigation patterns and trends over time, providing valuable insights into the efficiency and effectiveness of the system.

  2. Automatic central reports and alerts: The system can automatically generate reports and alerts to the green service in the event of extreme weather conditions or other unusual events.

  3. Direct control and intervention: The green service or contractors can remotely control and intervene in the system as needed, providing flexibility and enabling efficient management of the irrigation and watering process.

  4. Assigning areas to gardeners: The municipality''s green service can assign specific areas of the system to individual gardeners, allowing for more targeted and effective management.

  5. Remote control by contractors: Contractor gardeners can also remotely control the system as needed, providing additional flexibility and enabling efficient management of the irrigation and watering process.

  6. Emergency notifications: The system can provide visual images and immediate notifications in the event of emergency situations, such as sudden rainfall or human intervention, allowing for timely response and effective management of the system.

Πίνακας Απομακρυσμένου Ελέγχου

Remote Control Panel

The remote control panel of the irrigation and watering system provides a range of features and capabilities, including:


    1. Statistical seasonal data: This feature allows for the analysis of irrigation patterns and trends over time, providing valuable insights into the efficiency and effectiveness of the system.

    2. Automatic central reports and alerts: The system can automatically generate reports and alerts to the green service in the event of extreme weather conditions or other unusual events.

    3. Direct control and intervention: The green service or contractors can remotely control and intervene in the system as needed, providing flexibility and enabling efficient management of the irrigation and watering process.

    4. Assigning areas to gardeners: The municipality''s green service can assign specific areas of the system to individual gardeners, allowing for more targeted and effective management.

    5. Remote control by contractors: Contractor gardeners can also remotely control the system as needed, providing additional flexibility and enabling efficient management of the irrigation and watering process.

    6. Emergency notifications: The system can provide visual images and immediate notifications in the event of emergency situations, such as sudden rainfall or human intervention, allowing for timely response and effective management of the system.

Minimum Installation Requirements

The Ardefsis smart irrigation and watering system is designed to be compatible with any existing irrigation system, requiring no changes to the infrastructure. As long as there is an electric valve present in each watering zone, the system can be easily integrated and begin regulating the supply of water to each solenoid valve based on the specific watering needs of each zone.
This allows for easy implementation and efficient management of the irrigation and watering process, helping to optimize water usage and improve crop health and production.

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Information

It differs from other automatic irrigation systems as it does not program the watering time but analyzes the needs of the soil according to the plants and the quality of the soil.

It thus provides optimal soil moisture when required by constantly controlling soil moisture.

Address

Service Platform,

19-21 Ydras Street, Kipseli,
Athina 113 62.
Tel. +30 21 022 08157
Google Maps 8G95XPWP+FWJ