Transcript
Page 1: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

REAL TIME WATER QUALITY MONITORING USING

ZIGBEE BASED WIRELESS SENSOR NETWORK ________________________________________________

1st May 2012

@nighthawknitin

Page 2: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Group Members: Asish K Sahadevan (08103012) Densy David E (08103017) Faseeha C H (08103023) Munavar Fairooz C (08103040) Nitin Balakrishnan (08103046)

Guided by:

Ashly Thomas T,

Asst.Professor,

Dept.of Computer Science & Engineering,

MES CE

Page 3: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Overview

Abstract

Overall Design

Experimental Results

Performance Evaluation

References

Contribution of the Project

Page 4: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Abstract

System consists of a WSN, with a number of sensor nodes with networking capability for monitoring

Remote data acquisition

Parameters considered include – temperature, turbidity and pH

Reduces the overall cost, increases the flexibility

ZigBee-high transmission power with relatively low power consumption

Page 5: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Overall Design

Overall block diagram

Page 6: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Overall Design

The project comprises of three modules:

Embedded Module

Desktop Application

Web Application

Page 7: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Embedded Module

Page 8: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

AT89S52 Development Board

Page 9: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Features :

• 8 bit microcontroller that supports 8K Bytes of In-System Programmable (ISP) Flash Memory • 256 bytes of RAM • Operational Range - 4.0V to 5.5V • Used two ports( Port 0 and Port 3) as Output Ports and two ports(Port 1 and Port 2) as Input Ports • LCD feature provides on checking of values

Page 10: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

XBee Pro S2

Page 11: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Features : • Low-cost, Low-power, Wireless mesh network standard • Supports range of 1500 m ( line of sight) • Operating Voltage – 3.0V to 3.4 V • Free Testing and configuration software (X-CTU Software ) • Contains three different device types : coordinator, router, and end device

Page 12: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Design Models

Page 13: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)
Page 14: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)
Page 15: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)
Page 16: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)
Page 17: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)
Page 18: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Schematic Design

Page 19: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Experimental Results

Created a fast response WSN for checking the quality of drinking water

Temperature, pH and Turbidity are found using ‘Real time data acquisition’

ZigBee mesh network makes ‘Real time data acquisition’ possible

Desktop App allows the local admin to administrate the respective local station

Web App allows the Central Admin to administrate all the local stations registered to it, from any remote location

Page 20: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Performance Evaluation Desktop App

• Compared to C/C++, Java is slower . But Java is high on security

• Memory leakage in Java is minimal

Web App

• Slow in the first run after compilation. Faster in the subsequent executions

• JSP allows Java code and certain predefined actions to be interleaved with static web markup content, with the resulting page being complied and executed on the server to deliver a document

Embedded Module

• 8KB space constraint in ROM

• Optimised code is embedded

Page 21: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

References

IJET Article: ‘Water Quality Monitoring System Using Zigbee Based Wireless Sensor Network’

en.wikipedia.org/wiki/Wireless_sensor_network

http://www.digi.com/pdf/wp_zigbeevsdigimesh.pdf

The ZigBee Alliance website [Online] Available: http://www.zigbee.org/

Page 22: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Contribution of the Project

Social relevance – the project finds its application in examining the ‘water quality’, an important factor as far as, irrigation, domestic purposes etc… are concerned

More parameters can be taken into account, thereby further improving the process of examining the water resource

The idea of ‘remote data acquisition’ has a wide range of applicability. For example – in weather forecast in aero planes, traffic monitoring system etc…

Page 23: REMOWZ - Realtime Water Quality Monitoring using ZigBee based WSN (Part II)

Thank You…

"Thousands have lived without love, but not one has lived without water." — W.H. Auden


Recommended