Executive Secretary
9th International Scientific Conference of Agricultural Development and Sustainability
AGROCENTRO 2019
Abstract
As a consequence of deployment advantages of the Wireless
Sensor Networks, the environmental monitoring of greenhouses parame-
ters have been a widely used scenario for this technologies as a branch of
the Precision Agriculture. In this research we propose an IoT architec-
ture for this particular application. A Wireless Sensor Network (WSN)
is designed based in the Zolertia Z1 mote, for the collection of luminous
intensity, air temperature, soil moisture and relative humidity in dier-
ent points of actual greenhouses. It is also developed, a Raspberry Pi 3
model B IoT Gateway based in the ThingsBoard IoT Gateway platform.
It is implemented in this gateway basic data pre-processing and data
persistence capabilities giving the application some Fog Computing fea-
tures. At the cloud level is implemented a ThingsBoard cluster platform
which could access the information about the network devices through
the MQTT protocol. A dashboard is designed in order to monitor the
environmental parameters and to test the given proposal.
Resumen
As a consequence of deployment advantages of the Wireless
Sensor Networks, the environmental monitoring of greenhouses parame-
ters have been a widely used scenario for this technologies as a branch of
the Precision Agriculture. In this research we propose an IoT architec-
ture for this particular application. A Wireless Sensor Network (WSN)
is designed based in the Zolertia Z1 mote, for the collection of luminous
intensity, air temperature, soil moisture and relative humidity in dier-
ent points of actual greenhouses. It is also developed, a Raspberry Pi 3
model B IoT Gateway based in the ThingsBoard IoT Gateway platform.
It is implemented in this gateway basic data pre-processing and data
persistence capabilities giving the application some Fog Computing fea-
tures. At the cloud level is implemented a ThingsBoard cluster platform
which could access the information about the network devices through
the MQTT protocol. A dashboard is designed in order to monitor the
environmental parameters and to test the given proposal.
About The Speaker
Richar Sosa
