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GREEN HOUSE: the integrated solution for greenhouses.

GREEN HOUSE is an advanced control and monitoring system of the microclimatic conditions in the greenhouse. It’s suited for those who design greenhouse from the ground or for those who want automate and rationalise an existing greenhouse. GREEN HOUSE maximizes return of the greenhouse cultivations by reducing the costs of energy needs. It’s equipped with wireless sensors in order to reveal all the conditions of interest.

GREEN HOUSE is a decision support system which makes it possible to increase the effectiveness of analysis and optimisation of choices. It’s a complete contol and monitoring tool which is able to guarantee the flexibility of implementation thanks to its modular architecture which includes only chosen wireless sensors.

GREEN HOUSE is completely customizable according to customer requirements. On the basis of installed  wireless sensors and actuators, it offers several management and micro-climate control services.

WHAT GREEN HOUSE DOES

The GREEN HOUSE architecture is flexible and modular. It includes 3 areas:
1 – WSN (wireless sensors nodes): they send micro-climate parameters to the gateway
2 – WAN (wireless actuators nodes): they execute commands of the gateway
3 – GATEWAY: it takes the decisions concerning automation processes and connects all of the nodes.

The initiation rules and the ignition parameters of automation are totally configurable also at a later date. So GREEN HOUSE is able to meet and adapt to the greenhouse growers’ requirements over time.

serra_eng
The purpose of the GREEN HOUSE is to preserve the balance of the micro-climate in the greenhouse, the most congenial one for different growth stages.
The determining parameters are:

Automatism Function Parameters
Aeration doors

To adjust the air temperature and humidity.

Internal/external temperature

Internal/external humidity

Wind, speed and direction (external)
Rain, presence, absence (external)

Ventilation fans

To adjust the air temperature and humidity.

Internal temperature

Internal humidity
Wind, speed and direction
Rain, presence, absence (external)

Heating To control the heating Ambient temperature
Shading net To reduce the luminous intensity Luminosity
Lamps To increase the luminous intensity Luminosity
Vaporizers To adjust the air humidity Internal humidity
Fertilisation

Balance of the fertilising elements and distribution of the nutritional solution

EC Electrical conductivity

pH

Irrigation To adjust the soil moisture Soil moisture

APPLICATIONS

– In propagation or multiplication greenhouses for the rooting of flowering trees and fruit plants.
– In forcing or growing greenhouses for the growing of flowering trees and fruit plants.
– In ordinary crops greenhouses for the growing of vegetable trees.
– In drying greenhouses for the drying process of agricultural products and forestry such as grain, figs, tomatoes, corn, hay, tobacco, mushrooms etc.. and for drying process of biomass such as cut wood, wood chips or faggots. The drying greenhouses are used for sludges drying.
– In hydroponic greenhouses.


SCALABILITY

– single-span or isolated greenhouses. Unique span.
– double o twinned greenhouse. Double span with or without partition.
– multi-span greenhouses.

The management GREEN HOUSE system software can automate Alert sending via sms or email upon the occurrence of preset events. GREEN HOUSE allows the greenhouse growers to monitor and adopt measures in real time.

SENSORS

  • Air temperature wireless sensor (indoor/outdoor): it’s useful for optimizing the aeration doors opening and closure and the fan turning on and off.
  • Air humidity wireless sensor (indoor/outdoor): it’s useful for optimizing the aeration doors opening and closure and the fan turning on and off.
  • Soil moisture wireless sensor: it’s useful for optimizing the irrigation.
  • Brightness wireless sensor: it’s useful for optimizing the use of shading net.
  • EC electrical conductivity: it measures the soil conductivity which is useful for optimizing the fertirrigation.
  • pH wireless sensor: it’s useful for optimizing the fertirrigation.
  • Anemometer: it’s useful in order to control the wind speed during the aeration doors opening.
  • Rainfall: it’s useful in order to control the rain presence or absence during the aeration doors opening.
  • Camera module: remote surveillance.

ACTUATORS

  • Wireless relays module: it’s suitable for on/off lighting, irrigation pumps.
  • Mosfet/PWM module: it’s suitable for variable intensity heating, fans and lighting.

The GREEN HOUSE modular architecture allows the system to integrate with electric motors, pumps and lighting which are already present on site and they have not yet been automated.

Our case history:

Organic tomatoes in the greenhouse: IoT and Big Data

Fertigation in greenhouses: case history with sensors and IoT

Interview and case history 2016

Click here for download GREEN HOUSE white paper





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