mainSENSOR is based on an innovative measuring principle, which has been developed by Micro-Epsilon in order to combine the advantages of both inductive and magnetic sensors. As different strength magnets are applied, measuring ranges of up to 55mm can be achieved. For changing the measurement set up of the proximity sensors, it is only necessary to change the magnet.

More on the measurement principle: https://www.micro-epsilon.com/glossar/MDS.html
More on the sensor and its variants: https://www.micro-epsilon.com/displacement-position-sensors/magneto-inductive-sensor/

Dieses Video auf Deutsch ansehen: https://youtu.be/Dwgg0uHIc1Q
Regardez cette vidéo en français: https://youtu.be/BEPvZcn3how

https://www.micro-epsilon.de/displacement-position-sensors/magneto-inductive-sensor/

https://www.micro-epsilon.fr/displacement-position-sensors/magneto-inductive-sensor/

User Friendly Fuzzy Logic based “Farm Automation” using Arduino and Labview with X-bee based Control System

Team Members : Sanjay Raam , Bharatwaj, Ramakrishnan, Prasanna, Vignesh
College : Meenakshi Sudararajan Engineering College (Department of EEE)

In spite of the vast advancement in technology, the exposure of a primary sector like agriculture to technology is quite limited in India. With an exponential decrease in the labour availability for agriculture, a second green revolution is the order of the day. The objective of this paper is to reduce the pressure on manual labour. This is done with the help of Arduino, LabView and X-bee Technology. Essential parameters of the field are sensed to have a continuous unmanned supervision.

The Literature Survey of our project can be viewed at:

https://www.youtube.com/watch?v=mIhVfJGFkdM

There are basically three levels in the project which work independently. The first level is the field level which is placed in the field itself. This measure the various parameters of the environment of the field using the sensors. The values measured by these sensors are sent to the next level by means of Xbee. The next level is the monitoring level, this level receives the data from the field level through Xbee shield connected to Arduino and is sent to Labview through Arduino. The parameters can be monitored using Labview. The fuzzy algorithm for the outputs are also coded in the Labview. The fuzzy inputs are Soil Moisture Level, Humidity and Temperature. The Humidity is given higher priority or preference as the spraying of water to increase humidity in turn increases soil moisture level to an extent. The fuzzy outputs are Drip System for irrigation and Sprayer system to control humidity in air. The Drip system is also used to fertilize the plants while the sprayer system can be used to spray weedicide before sowing the crops. The other input from the Light Dependant Resistor(LDR) is directly used to control the artificial lighting system. The third level is the control level. This level is used to control the outputs using relays connected through Arduino. The other feature of the project is that the various sensor values are regularly uploaded to the server which ca be used for agricultural research in future.