IRJET- Water Level Control, Monitoring and Altering System by using GSM in Irrigation based on Season
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This document describes a system that uses sensors and GSM technology to monitor and control water levels for irrigation purposes. The system uses a PIC microcontroller connected to water level, temperature, and moisture sensors. It can monitor levels, temperatures, and soil moisture in real-time. If parameters exceed thresholds, it sends alerts by SMS. It can automatically open and close dam shutters to control water flow based on sensor readings. The system aims to reduce water wastage and ensure efficient water use for irrigation based on seasonal needs.
![International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072
© 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 1035
Water Level Control, Monitoring and Altering System by using GSM in
Irrigation Based on Season
Amruta Shrimant Bankar1, Kokare Bhagyshree Prakash2, Kolekae Ashwini Shridhar3,
S. M. Lambe4
1,2,3Student, Dept. of ENTC Engg., Karmayogi Engineering College, Pandharpur
4Professor, Dept. of ENTC Engg., Karmayogi Engineering College, Pandharpur, Solapur, Maharasrta, India-413304
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Abstract - This paper presents a detailed model of the
system which senses the changes like water level and
temperature difference using sensors and overflow detection
using GSM advanced technology. So there is an important to
use the global system for mobile communication (GSM)
worldwide for continuousmonitoring, controllingandalerting
of the dam water level. This advanced technology system uses
a short message service (SMS) to directly control and monitor
the opening and closing of the shutter of the dam. This system
alerts through the SMS, the operator staying nearby places
about the rise in water level. Now a day’s it is found that
temperature sensor senses the changes in atmospheric
temperature and take up an appropriate measure like
relieving the excess water in the dam for irrigation purpose.
Key Words: PIC Microcontroller, GSM Module, Moisture
Sensor, Water Level Sensor, Temperature Sensor
1. INTRODUCTION
Today’s need of system, also explained how to implement
water level control, monitoring and alerting systemwiththe
help of PIC 16F877A, GSM &LM35, moisture sensor. In this
chapter we discuss in the existing system of water level
control, monitoring and alerting system by using GSM in
irrigation based on season. The system sends alerts as SMS
broadcast, and opens the shutter. Another useful
functionality implemented in the system is the periodic
opening and closing of the tunnel pathways using a solenoid
valve, to facilitate sufficient water-flowforirrigation[1]. The
temperature sensor is used in the system, if it finds the
atmospheric temperature to be higher than usual; it
increases the duration of opening the solenoid valve so as to
ensure sufficient water-flow during harsh climates.
2. LITERATURE REVIEW
[1] T. S. Yuvarani, R. Archana (2016), in their paper has
proposed to global system for mobile communication (GSM)
is used worldwideforcontinuousmonitoring,controllingand
alerting of dam water level. This advance technology uses
short message services(SMS)todirectlycontrolandmonitor.
The opening and closing of the shutter in dam. Through the
SMS this systemalertsthepeoplestayingnearbyplacesabout
the rise in water level. Temperature sensor, sense the
changes in atmospherictemperatureandtakeupappropriate
measure like relieving the excess water in dam for irrigation
purpose in seasons. This paper gives a detailed model of the
system which senses the changesliketemperatureandwater
level difference using sensors, and overflow detection using
GSM technology.
[2] J. Mounika1, N. Siva Kumar Reddy (2016), he has
proposed his to study the method to check and control water
level for irrigation system. The water is a one of the
important natural resource and it is an important asset to
save the water on the earth. This paper describes the
automaticsystem to monitorandcontrolwaterlevelwiththe
help of water level sensorsand wirelessnetworksystem.The
need of this paper is to cut water wastage occurs in cannel
and sub cannel, and the WSN system reduces the human
efforts.
3. BLOCK DAIGRAM
The proposed system is based on microcontroller (PIC) that
monitors the load current of a distribution transformer. It
consists of power transformer, Water level sensor, micro-
controller (PIC16F877A), LCD display, GSM modem, motor
driver, moisture sensor and temperature sensor. We have
divided oursystem into two parts. These are transmitterand
another one is receiver.
This transmitter side is dry area. We can have used the
temperaturesensor,picmicrocontrollerandmoisturesensor.
Temperaturesensor is sensethetemperatureofatmospheric
and moisturesensorare sense the moistureof the soil.When
with the help of this two sensor we can find out the need of
water. This information is processed on microcontroller and
processing of the data are send with help of the GSM to dam
side GSM.
In receiver side water level sensor are used in dam. that find
level of the sensor, when level is appropriate the data are
processing on pic microcontroller and this is display on LCD
and motor driver automatic ON and start the motor the dam
sutter are open.](https://image.slidesharecdn.com/irjet-v6i4221-190622070605/85/IRJET-Water-Level-Control-Monitoring-and-Altering-System-by-using-GSM-in-Irrigation-based-on-Season-1-320.jpg)
![International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072
© 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 1037
Flow chart steps:
Step 1: Sense the temperature.
Step 2: Count the moisture in the soil.
Step 3: All the contents display on LCD.
Step 4: Send the message through the GSM.
5. SIMULATIONS OF THE MONITORING SYSTEM
Fig- 4: Simulation of Monitoring System
6. RESULT
The system successfully providesreal timemonitoringofthe
water level, temperature and moisture sensors for
measuring various parameters like waterlevel,temperature
and moisture were successfully implemented.Transmission
and reception of data from the sensors to the GSM using PIC
microcontroller modules is demonstrated. Automation of
flood gates when the water level of the dam exceeds the
predefined threshold values is also demonstrated. A
predefined SMS using GSM modem is sent when any of the
monitored parameters goes beyond the range. Hence by
using this monitoring system we can have real time
monitoring of various parameters and depending on these
observations the concerned authorities are alerted to take
the precautionary measures.
7. CONCLUSION
This proposedautomated mechanismofwaterlevel monitor,
control and alerting systemusingGSMindamsandirrigation
system based on season reduces the wastage, ensures
efficient use of available water resources and generates
more precise and accurate results. There is no requirement
of human laborers for monitoringthelevel,justoneoperator
is sufficient for opening and closing the gate according to
sensor output. By increasing the number of level sensors
being more, we can open or close the dam gate whenever
necessary knowing the accurate level of water.
REFERENCES
[1] T.S.Yuvarani , R.Archana, “Water level monitor, control
and alerting system using gsm in dams and irrigation
system based on season,” International Journal of
Scientific & Engineering Research, Volume 7, Issue 4,
April-2016, pp. 135-137, ISSN 2229-5518.
[2] Makesh Iyer, Shrikant Pai and Sneha Badri Embedded
dam gate control system using ‘c’ and visual basic,
International Journal of Computer Applications, Volume
69– No.2, May 2013.
[3] S. M. Khaled Reza, Shah Ahsanuzzaman Md. Tariq, S.M.
Mohsin Reza, “Microcontroller based automated water
level sensing and controlling: design and
implementation issue”, Proceedings of the World
Congress on Engineering and Computer Science 2010
Vol I WCECS 2010, October 20-22
[4] Ersayin, D., “Studying seepage in a body ofearth-fill dam
by (Artificial Neural Networks) ANNs”, Master Thesis,
İzmir Institute of Technology, January 2006.](https://image.slidesharecdn.com/irjet-v6i4221-190622070605/85/IRJET-Water-Level-Control-Monitoring-and-Altering-System-by-using-GSM-in-Irrigation-based-on-Season-3-320.jpg)
IRJET- Water Level Control, Monitoring and Altering System by using GSM in Irrigation based on Season
- 1. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 1035 Water Level Control, Monitoring and Altering System by using GSM in Irrigation Based on Season Amruta Shrimant Bankar1, Kokare Bhagyshree Prakash2, Kolekae Ashwini Shridhar3, S. M. Lambe4 1,2,3Student, Dept. of ENTC Engg., Karmayogi Engineering College, Pandharpur 4Professor, Dept. of ENTC Engg., Karmayogi Engineering College, Pandharpur, Solapur, Maharasrta, India-413304 ---------------------------------------------------------------------***--------------------------------------------------------------------- Abstract - This paper presents a detailed model of the system which senses the changes like water level and temperature difference using sensors and overflow detection using GSM advanced technology. So there is an important to use the global system for mobile communication (GSM) worldwide for continuousmonitoring, controllingandalerting of the dam water level. This advanced technology system uses a short message service (SMS) to directly control and monitor the opening and closing of the shutter of the dam. This system alerts through the SMS, the operator staying nearby places about the rise in water level. Now a day’s it is found that temperature sensor senses the changes in atmospheric temperature and take up an appropriate measure like relieving the excess water in the dam for irrigation purpose. Key Words: PIC Microcontroller, GSM Module, Moisture Sensor, Water Level Sensor, Temperature Sensor 1. INTRODUCTION Today’s need of system, also explained how to implement water level control, monitoring and alerting systemwiththe help of PIC 16F877A, GSM &LM35, moisture sensor. In this chapter we discuss in the existing system of water level control, monitoring and alerting system by using GSM in irrigation based on season. The system sends alerts as SMS broadcast, and opens the shutter. Another useful functionality implemented in the system is the periodic opening and closing of the tunnel pathways using a solenoid valve, to facilitate sufficient water-flowforirrigation[1]. The temperature sensor is used in the system, if it finds the atmospheric temperature to be higher than usual; it increases the duration of opening the solenoid valve so as to ensure sufficient water-flow during harsh climates. 2. LITERATURE REVIEW [1] T. S. Yuvarani, R. Archana (2016), in their paper has proposed to global system for mobile communication (GSM) is used worldwideforcontinuousmonitoring,controllingand alerting of dam water level. This advance technology uses short message services(SMS)todirectlycontrolandmonitor. The opening and closing of the shutter in dam. Through the SMS this systemalertsthepeoplestayingnearbyplacesabout the rise in water level. Temperature sensor, sense the changes in atmospherictemperatureandtakeupappropriate measure like relieving the excess water in dam for irrigation purpose in seasons. This paper gives a detailed model of the system which senses the changesliketemperatureandwater level difference using sensors, and overflow detection using GSM technology. [2] J. Mounika1, N. Siva Kumar Reddy (2016), he has proposed his to study the method to check and control water level for irrigation system. The water is a one of the important natural resource and it is an important asset to save the water on the earth. This paper describes the automaticsystem to monitorandcontrolwaterlevelwiththe help of water level sensorsand wirelessnetworksystem.The need of this paper is to cut water wastage occurs in cannel and sub cannel, and the WSN system reduces the human efforts. 3. BLOCK DAIGRAM The proposed system is based on microcontroller (PIC) that monitors the load current of a distribution transformer. It consists of power transformer, Water level sensor, micro- controller (PIC16F877A), LCD display, GSM modem, motor driver, moisture sensor and temperature sensor. We have divided oursystem into two parts. These are transmitterand another one is receiver. This transmitter side is dry area. We can have used the temperaturesensor,picmicrocontrollerandmoisturesensor. Temperaturesensor is sensethetemperatureofatmospheric and moisturesensorare sense the moistureof the soil.When with the help of this two sensor we can find out the need of water. This information is processed on microcontroller and processing of the data are send with help of the GSM to dam side GSM. In receiver side water level sensor are used in dam. that find level of the sensor, when level is appropriate the data are processing on pic microcontroller and this is display on LCD and motor driver automatic ON and start the motor the dam sutter are open.
- 2. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 1036 When the rainy season the moisturesensor andtemperature sensor are indicate or send the SMS no need of water. This is display on LCD and also automatic motor are OFF. In this over flow condition of the water are it alert the people with help of SMS and LCD display. Fig-1: Receiver side Fig-2: Transmitter side 3.1. POWER SUPPLY The PIC16F877A need +5V DC, this specificationdictatesthe use of a low-cost regulatorLM7805.TheLM7805 requiresan input voltage of at least 7.5V in order to guarantee regulation, so the unregulated power supply should supply at least this voltage under worst-case current consumption. 3.2. PIC MICROCONTOLLER Fig-3: Pin Diagram of 16F877A PIC microcontroller of series 16F877A is used in the proposed model. PIC16F877A is a small piece of semiconductor integrated circuits.Thepackagetypeisof the integrated circuits is DIP package. DIP stands for Dual Inline Package for semiconductor IC. This Package is very easy to be soldered onto the strip board. However, using a DIP socket is much easier so that this chip can be plugged and removed from the development board. PIC16F877A IC can be reprogrammed and erased up to 10,000times.Therefore, it is very good for new product development phase. 4. ALGORITHAM FOR MONITERING AND CONTROL 4.1. Flowchart for Receiver Side Flow chart steps: Step 1: Initialize the water level indicator it detects the water level and send SMS to the GSM. Step 2: Alert by using SMS. Step 3: First it indicates that water levelsanddisplayonLCD. Step 4: If the water levels are displays and if the water level is appropriate then due to the help of motor driver open the DAM shutter. Step 5: Release the water. 4.2. Flowchart for Transmitter Side
- 3. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 1037 Flow chart steps: Step 1: Sense the temperature. Step 2: Count the moisture in the soil. Step 3: All the contents display on LCD. Step 4: Send the message through the GSM. 5. SIMULATIONS OF THE MONITORING SYSTEM Fig- 4: Simulation of Monitoring System 6. RESULT The system successfully providesreal timemonitoringofthe water level, temperature and moisture sensors for measuring various parameters like waterlevel,temperature and moisture were successfully implemented.Transmission and reception of data from the sensors to the GSM using PIC microcontroller modules is demonstrated. Automation of flood gates when the water level of the dam exceeds the predefined threshold values is also demonstrated. A predefined SMS using GSM modem is sent when any of the monitored parameters goes beyond the range. Hence by using this monitoring system we can have real time monitoring of various parameters and depending on these observations the concerned authorities are alerted to take the precautionary measures. 7. CONCLUSION This proposedautomated mechanismofwaterlevel monitor, control and alerting systemusingGSMindamsandirrigation system based on season reduces the wastage, ensures efficient use of available water resources and generates more precise and accurate results. There is no requirement of human laborers for monitoringthelevel,justoneoperator is sufficient for opening and closing the gate according to sensor output. By increasing the number of level sensors being more, we can open or close the dam gate whenever necessary knowing the accurate level of water. REFERENCES [1] T.S.Yuvarani , R.Archana, “Water level monitor, control and alerting system using gsm in dams and irrigation system based on season,” International Journal of Scientific & Engineering Research, Volume 7, Issue 4, April-2016, pp. 135-137, ISSN 2229-5518. [2] Makesh Iyer, Shrikant Pai and Sneha Badri Embedded dam gate control system using ‘c’ and visual basic, International Journal of Computer Applications, Volume 69– No.2, May 2013. [3] S. M. Khaled Reza, Shah Ahsanuzzaman Md. Tariq, S.M. Mohsin Reza, “Microcontroller based automated water level sensing and controlling: design and implementation issue”, Proceedings of the World Congress on Engineering and Computer Science 2010 Vol I WCECS 2010, October 20-22 [4] Ersayin, D., “Studying seepage in a body ofearth-fill dam by (Artificial Neural Networks) ANNs”, Master Thesis, İzmir Institute of Technology, January 2006.