3.BLOCK DIAGRAM

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Transcript 3.BLOCK DIAGRAM

Design Of Sewage Over Flow
Remote Monitoring System Over
GPS And GSM Network
Student Name
Guide Name
USN NO
H.O.D Name
Name Of The College & Dept
 CONTENTS
1.
Abstract
2.
Objectives
3.
Block diagram
4.
Methodology
5.
Advantages & disadvantages
6.
Applications
7.
Conclusion
1.ABSTRACT:
In this system, a new sewage flow remote monitoring system over
GPS is presented, which monitors the sewage flow parameter remotely in
real time. In the proposed system, GPS network is adopted as the wireless
sensor network, and the data between the slave computer and the remote
terminal are transmitted via the GPS . The system is easy to implement and
has a high degree of automation, by which the acquisition, transmission and
processing of the sewage flow data can be achieved in wireless, networked
and intelligent manners.
2.OBJECTIVES:
“ To save water from overflow of sewage .“
3.BLOCK DIAGRAM :
BUFFER
RELAY
DRIVER
OUTPUT DEVICES
BUZZER
GPS
DC MOTOR
M
INTERFACING
STAGE
IR TX
VISUAL
INDICATION
IR RX
ARM PROCESSOR
LCD DISPLAY
GSM TX
+12 Volts
+5 Volts
GND
230 V, AC
Supply
TRANSFORMER
RECTIFIER
FILTER
REGULATOR
HARDWARE REQUIREMENTS:
ARM 7 / Cortex M3, LCD, Relay Driver, Relays, Resistors, Capacitors, LEDs, Crystal, Diodes, Transformer, Voltage Regulator,
Push Button.
SOFTWARE REQUIREMENTS:
Keil compiler uVision 4, Language: Embedded C or Assembly, WLPRO Programmer
4. METHODOLOGY:
This proposed work is an attempt to design a sewage over flow
unit that uses the global positioning system to determine the precise
location of a overflow to which it is attached and using GSM modem this
information can be transmit to remote user. This system contains singleboard embedded system that is equipped with GPS and GSM modems
along with ARM processor. During object motion, its location can be
reported by SMS message. A software package is developed to read,
process, analyze and store the incoming SMS messages. The use of GSM
and GPS technologies allows the system to track overflow location.
The IR transmitter transmits the IR signals continuously ,IR
receiver receives continuously if any overflow of sewage the breaks in
community of IR TX & IR RX signal then it gives the signal to the
ARM , then the ARM will send the information & co-ordinates which
read from GPS location of overflow to receiving station through GSM
which is in Municipality office . At the same time ARM will generate
the out put that is fed to buffer IC 4050 ,buffer stores and given to the
driver IC 2003 in driver current will amplifies and voltage will inverts
with the help of Darlington circuit of driver IC to drive the relay . Then
signal is given to the output load for indication purpose .
5. ADVANTAGES & DISADVANTAGES:
 ADVANTAGES:
1.
Prevent pollution and promote reuse and recycling
2.
Reduce priority and toxic chemicals in products and waste; and
3.
Conserve energy and materials
DISADVANTAGES:
In this project usage of relays leads to consume more power.
6.APPLICATIONS:
1.
Hydraulic and water quality monitoring of water transmission and
distribution systems (this also includes capturing fast pressure
transient events).
2.
Remote acoustic leak detection including remote cross-correlation.
3.
Monitoring the water level in sewer collectors and combined sewer
outflows.
7.CONCLUSION:
We achieved our objective without any hurdles i.e. To save water
from overflow of sewage .
THANK YOU