IoT intelligence adapted to precision agriculture

SysAgria system monitors and records vital parameters of soil, air, precipitation and light through the software application and a wide range of sensors designed for multiple crops.

See configurations

How can SysAgria system help you?

Real-time data and weather forecast of the microclimate

Real time measures of key parameters in order to plan sowing, fertilizer & pesticides application and harvesting.

Warning of
diseases and pests risk

Warning on the risk of pathogens and pests depending on specific bioclimatic parameters, crop phenophase and soil favorability.

Production estimation
and NPK

Based on the registered parameters, the system can estimate the amount of harvest that can be obtained and the NPK requirement for different types of crops.

Quick and informed decisions

Scientific measurement and interpretation of parameters specifically to agricultural crop.

Cost optimization

Reduction of potential crop losses
and reduction of treatment costs
by optimizing their application.

24/7 crop monitoring

Permanent crop surveillance. Easy access from any device.

Visualization of data and
their agronomic interpretation

Evolution of NPK in soil

SysCrop NPK estimates production based on the level of macroelements in soil and available water. Automatic generation of the warning bulletin on the levels recorded outside the optimal measurement range specific to the crop for: water available in the soil, pH level, electroconductivity, nitrogen, phosphorus and potassium levels.

Weather forecast and ultra local weather data

Isometric map by interpolation of climatic parameters.

Customized reporting and agronomic interpretations

Any parameter recorded by the stations can be the subject of a custom recurring report.

Disease risk reports

SysCrop Alert warns about the risk of pathogens and pests depending on bioclimatic parameters such as temperature, humidity, solar radiation, crop phenophase and soil favorability.

Crop listing

It can be configured for any type of culture, including multiculture viewing for one or more users.

SysAgria in Greenhouses and Solariums

Monitoring of microclimate conditions and complete automation of closing / opening systems, irrigation, fertigation, ventilation and heating.

Interpretation of parameters measured with sensors

AIR

Wind speed and direction

⇾ At over 4m / s the wind limits phytosanitary treatments

⇾ The wind influences the soil moisture; (removal of vapor-saturated air)

⇾ Correlated with the disease risk prediction indicates the direction of infestation;

⇾ Correlated with the weather forecast indicates the movement of the rain front.

Humidity and Air temperature

⇾ Triggers the phenophases of the crop

⇾ Above or below certain limits there are extreme phenomena with major impact (frost / heat);

⇾ Conditions the application of phytosanitary treatments (above 25 or below 5 degrees) to avoid phytotoxicity, dehydration and decomposition of the chemical formula.

Rainfall

⇾ Growth limiting factor and conditions the level of harvest;

⇾ Below a certain value correlated with certain phenophases, the crop can be totally compromised;

⇾ Conditions mechanized agricultural works (sowing, treatments, harvesting);

⇾ Conditions the appearance and action of diseases and pests;

Evapotranspiration

⇾ Electronic leaf - Evapotranspiration is dependent on the plant species and the phenological stage in which it is. There is a direct correlation between the amount of water required and the process of biomass accumulation

Humidity and Air Temperature (in microclimate)

⇾ At a height of 15-20 cm from the ground inside the crop are identified the optimal conditions for the appearance of pathogens and pests

Atmospheric pressure

⇾ Directly influences the VPD calculation (vapour-pressure deficit)

⇾ Contributes to the calculation of the risk of disease and pests

⇾ Directly influences the calculation of evapotranspiration

Solar radiation

⇾ Growth limiting factor

⇾ Estimation of disease and pest risk

Soil

NPK

⇾ Tracking values over time helps the controlled fertilization according to phenophase and climatic conditions, for optimal absorption into the plant;

⇾ Reducing soil overfertilization and avoiding losses due to NPK migration in the groundwater

EC

⇾ Indicates the general level of soil macro and micronutrients needed for a crop (salinity index)

Soil temperature and humidity

⇾ Determines the time of sowing and the optimal growing periods

⇾ Indicates macronutrients'
dynamics and soil water balance;

⇾ Indicates the water reserve required for optimal plants growing during the vegetative cycle.

pH

⇾ The application of calcareous amendments is necessary especially on acid soils, with a pH lower than 5.8;

⇾ May indicate the availability of nutrients in the soil.