IRJET- Implementation of IoT in Agriculture with Real Time Environmental, Soil Parameter Monitoring and Weather Report

International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 06 Issue: 06 | June 2019 www.irjet.net p-ISSN: 2395-0072
© 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 2931
Implementation of IoT in Agriculture with Real Time Environmental,
Soil Parameter Monitoring and Weather Report
Neelu Sharma1, K. Priyanka Sahu2
1M.Tech student, Department of Electronics & Communication Engineering & Kalinga University, Raipur (C.G.)
2Assistant Professor, Department of Electronics & Communication Engineering & Kalinga University, Raipur (C.G.)
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Abstract - Smart farming with the help of Internet of
Things (IOT) has been designed and the controlled circuit
operates on both automatic and manual modes. The
controller keeps monitoring the temperature, humidity,
soil condition and accordingly supplies water to the field.
And also alert by fire in agriculture filed. In smart
agriculture, losses of irrigation water and fertilizer are
minimized and create a suitable climate in terms of
humidity and temperature. The objective of this paper,
proposing the agricultural field control system using soil
moisture, and climate sensors. By observing the changes in
these parameters, the irrigation system, temperature, and
humidity can be monitoring via the internet and
automatically controlled if certain criteria differ from
reference values.
Key Words: ESP8266,LCD16*2,DHT11,Moisturesensor,
water pump, buzzer.
1. INTRODUCTION
Temperature Humidity and soil are three basic
parameters to build any Weather Station and to measure
environmental conditions. The Indian agriculture is also
affected by present climatic conditions like humidity,
wind speed, moisture levels have significant role in
growth of the crop. The project deals about developing
smart agriculture using IoT which is given to the farmers.
The Sensor used is DHT11 temperature sensor and
Moisture sensor. It is inexpensive and has less weight.
Real-time monitoring of temperature and humidity plays
a vital role in many fields of agriculture. A Smart IoT
based Agriculture parameter which is used to assist
farmers in getting live data for efficient environment
monitoring which will enable them to do smart farming
and increase their overall yield and quality of products.
In this project we prevent a solution for monitoring the
weather conditions at a particular place and make the
information visible anywhere in the world.It is analysis
environmental data through weather API.
2.Description
An ESP8266 can be described as a network of WI-FI that
understand and control theenvironment,cooperatingjointly
with people or computers to control the surrounding
environment. The WI-FI is one of the main parts of an
ESP8266. Where the database is located, through a
developed web API. The web API sends the improvement of
environmental conditions.
The web application is suitable for mobile devices to
monitor the areas from anywhere via the web while having
the possibility of monitoring data weekly or daily. The data
transferred to the cloud can be used for more complex
analysis that will predict and prioritize more precisely the
environmental conditions,optimizethetime neededto reach
the mentioned locations and provide timely information
about the environmental conditions.
Block Diagram
Fig.1: Block Diagram of IoT based Irrigation system
Circuit Diagram
Fig.2: Circuit Diagram

Hardware and Software
ARDUINO IDE
An integrated developmentenvironment(IDE)is
a software applicationthatprovidescomprehensivefacilities
to computerprogrammersforsoftwaredevelopment.AnIDE
normally consists of at least a source code editor, build
automation tools, and a debugger.
API (Application Program Interface)
Think Speak™ is an IoT analytics platform service
that allows you to aggregate, visualize and analyze live data
streams in the cloud. Think Speak provides instant
visualizations of data posted by your devicestoThink Speak.
With the ability to perform online analysis and processingof
the data as it comes in. Think Speak is often used for
prototyping and proof of concept IoT systems that require
analytics.
Internet of things
The Internet of things (IoT) is the extension of
Internet connectivity into physical devices and everyday
objects. Embedded with electronics, Internet connectivity,
and other forms of hardware (suchas sensors),thesedevices
can communicate and interact with others over theInternet,
and they can be remotely monitored and controlled.
Fig.3: Internet of things
Sensor DHT11
DHT11 digital temperature and humidity sensor is a
composite Sensor contains a calibrated digital signal output
of the temperature and humidity. Application of a dedicated
digital modules collection technology and the temperature
and humidity sensing technology, to ensure thattheproduct
has high reliability and excellent long-term stability.
The sensor includes a resistive senseofwetcomponentsand
NTC temperature measurementdevices,andconnectedwith
a high-performance 8-bit microcontroller
Fig.4: DHT11
Soil moisture sensors
Soil moisture sensors measure the volumetric
water content in soil. Since the direct gravimetric
measurement of free soil moisture requires removing,
drying, and weighting of a sample, soil moisture sensors
measure the volumetric water content indirectly by using
some other property of the soil, such as electrical resistance,
dielectric constant, or interaction with neutrons, as a proxy
for the moisture content.
ESP8266 Module
Espressif Systems’ Smart Connectivity Platform
(ESCP) is a set of high performance,highintegrationwireless
SOCs, designed for space and power constrained mobile
platform designers.Itprovidesunsurpassedabilitytoembed
Wi-Fi capabilities within other systems, or to function as a
standalone application, with the lowest cost, and minimal
space requirement.
Result
To verify the effectiveness of proposed solution the
hardware has been designed device. The results of this
system can be seen on web server which can be predict
environmental parameter through weather API. By the help
of Thinkspeak visualization and weather API used to plot
sensor graph, weather graph ,weather map and pump
controller.
Experimental setup ON/OFF conditions
Fig 5 Experimental setup OFF conditions

Fig 6 Experimental setup ON conditions
Graphical Representation
Fig 7 (a) Sensor Graph
Fig7 (b) Weather Graph
Fig. 7(c) Weather Map
Fig 7(d) Pump control
CONCLUSION
The developed prototype for precision weather
station is capable of providing the farmers with real-time
weather situation and conditions prevailing in and around
the agricultural field. We can predict temperature, humidity
and soil moisture level and irrigation system can be
monitored. Increase productivity.
REFERENCES
1. Boobalan .J Jacintha.V,J.Nagarajan,K. Thangayogesh
and S.Tamilarasu “An iot based agriculture
monitoring system” IEEE International Conference
on Communication and Signal Processing ,April
2018.
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Assistant Professor Department of Computer

Science and Engineering, Jansons Institute of
Technology, Coimbatore, India. International
Journal of Engineering Development and
ResearchTechnology in 2018.
3. Elhassan Mohammed Elhassan Ahmed “Farm
Automation based on IOT”IEEE International
Conference on Computer Control, Electrical, and
Electronics Engineering,2018
4. International Journal for Research in Applied
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IRJET- Implementation of IoT in Agriculture with Real Time Environmental, Soil Parameter Monitoring and Weather Report

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