IoT Based Irrigation Method in Agriculture using Solar Energy
Keywords:
Automated Irrigation System, Solar Energy, Sensor, Internet of ThingsAbstract
Internet of Things (IoT) has a significant role in smart agriculture.
Smart farming is a developing thought, since of progress in IoT sensors
accomplished of as long as info about their agriculture fields. This paper
purposes to make use of growing methods i.e. IoT and smart agriculture
by means of automation. Monitoring environmental aspects are the
main factor to increase the yield of effective crops. This paper make
available knowledge of how to application IOT for monitoring weather,
humidity and temperature of environments to have a well-organized
yield of crops. This can be complete by sensors along with a camera to
make available improved info.
The camera is used to arrange for interface employed as an eye for the
sensor to govern environs better than just by addition a sensor. The
employed of sensors and other IOT devices necessitate a lot of energy
as it requirements to work 24x7 cycle uninterruptedly so to benefit with
this problematic connected to energy in agriculture we can use solar
panels to make available solar energy for the employed of sensors.
Solar panels can accumulation energy as well as make available it to
sensors instantaneously to help it employed day and night non-stop.
References
Rout KK, Mishra S, Routray A. Development of an
Internet of Things (IoT) based Introductory Laboratory
for Under Graduate Engineering Students. 16th
International Conference on Information Technology
(ICIT-2017), Bhubaneswar, India, 2017.
Rout KK, Mallick S, Mishra S. Design and Implementation
of an Internet of Things based Prototype for Smart
Home Automation Network. International Conference
on Recent Innovations in Electrical Electronics and
Communication Engineering ICRIEECE, Bhubaneswar,
India, July-2018.
https://thediplomat.com/2017/04/indias-thirstycrops-are- draining-the-country-dry/ accessed on 9th
September, 2018.
https://nrcca.cals.cornell.edu/soil/CA3/CA0324.php
access on 9th September, 2018.
Vaishali S, Suraj S, Vignesh G et al. Mobile Integrated
Smart Irrigation Management and Monitoring System
Using IoT. International Conference on Communication
and Signal Processing 2017; 6-8, India.
Wang N, Zhang N, Wang M. Wireless sensors in
agriculture and food industry-Recent development
and future perspective. Computers and Electronics in
Agriculture 2006; 50: 1–14.
Angal S. Raspberry pi and Arduino Based Automated
Irrigation System. International Journal of Science and
Research (IJSR) ISSN (Online): 2319-7064, 2016.
Pavithra DS, Srinath MS. GSM based Automatic
Irrigation Control System for Efficient Use of Resources
and Crop Planning by Using an Android Mobile. IOSR
Journal of Mechanical and Civil Engineering (IOSRJMCE) 2014 11(4).
Monica M, Yeshika B, Abhishek GS et al. IoT Based
Control and Automation of Smart Irrigation System
An Automated Irrigation System Using Sensors,
GSM, Bluetooth and Cloud Technology. Proceeding
International conference on Recent Innovations in
Signal Processing and Embedded Systems (RISE-2017)
-29 October,2017.
Rahul DS, Sudarshan SK, Meghana K et al. IoT based Solar
Powered Agribot for Irrigation and Farm Monitoring
Agribot for Irrigation and Farm Monitoring. Proceedings
of the Second International Conference on Inventive
Systems and Control (ICISC 2018).
Pandithurai O, Aishwarya S, Aparna B et al. Agro-tech:
a digital model for monitoring soil and crops using
internet of things (IoT) “, 3rd International Conference
on Science Technology Engineering & Management
(ICONSTEM), 2017.
Zhao W, Lin S, Han J et al. Design and Implementation of
Smart Irrigation System Based on LoRa. IEEE Globecom
Workshops (GC Wkshps),2017.
Pandithurai O, Aishwarya S, Aparna B et al. Agro-tech:
a digital model for monitoring soil and crops using
internet of things (IoT) . 3rd International Conference
on Science Technology Engineering & Management
(ICONSTEM), 2017.
Yashaswini LS, Sinchana HN, Vani HU et al. Smart
Automated Irrigation System with Disease Prediction”,
IEEE International Conference on Power, Control,
Signals and Instrumentation Engineering (ICPCSI- 2017).
Rao RN, Sridhar B. IoT based smart crop- field
monitoring and automation irrigation system”,2nd
International Conference on Inventive Systems and
Control (ICISC), 2018.
Ananthi N, Divya J, Divya M et al. IoT based Smart Soil
Monitoring System for Agricultural Production. IEEE
Interntional Conference on Technological Innovations in
ICT for Agriculture and Rural Development (ITAR 2017).
Mat I, Kassim M, Harun AN et al. IoT in Precision
Agriculture Applications Using Wireless Moisture
Sensor Network”, 2016 IEEE Conference on Open
Systems (ICOS), October 10-12, Langkawi, Malaysia,
Arvind G, Athira VG, Haripriya H et al. Automated
irrigation with advanced seed germination and pest
control”, 2017 IEEE International Conference on
Technological Innovations in ICT For Agriculture and
Rural Development (TIAR 2017).
Garg HP. Advances in solar energy technology. Reidel
Publishing, Boston, MA 1987; 3.
Halcrow SW, Partners. Small-scale solar powered
irrigation pumping systems: technical and economic
review. UNDP project GLO/78/004.Intermediate
Technology Power, London, UK, 1981.
A Harmim. Mathematical modeling of a box- type solar
cooker employing an asymmetric compound parabolic
concentrator Solar Energy 2012; 86: 1673-1682.
Tse KK, Ho MT, Chung HS-H et al. A novel maximum
power point tracker for PV panels using switching
frequency modulation. IEEE Trans. Power Electron.
; 17(6): 980-989.
Haley M, Dukes MD. Evaluation of sensor- based
residential irrigation water application. ASABE 2007
Annual International Meeting, Minneapolis, Minnesota,
ASABE Paper No. 072251.
Persada P, Sangsterb N, Cumberbatchc E et al.
Investigating the Feasibility of Solar Powered Irrigation
for Food Crop Production: A Caroni Case,” ISSN 1000
The Journal of the Association of Professional
Engineers of Trinidad and Tobago 2011; 40(2): 61- 65.
