PROJECT
PROPOSAL (DRAFT 2)
FLOOD MONITORING SYSTEM USING GSM
STUDENT
NAME: MUHAMMAD YUSOF BIN MAMAT
ID
NO:
51210210286
INSTITUTION:
BRITISH MALAYSIAN INSTITUTE
SECTION:
ELECTRICAL
SUPERVISOR:
SIR MUHYI BIN YAAKOP
1.
Introduction
Today aims of new
technologies are increase and make a work easier. Technical field’s work also
is that uses the new technologies because of the technologies are growth like a
mushroom after raining. Project flood monitoring system using GSM is the one of
new project to introduce to technical field that use GSM system module, GSM
modem is specialized type of modem that operates over subscription based
wireless networks which is similar to a mobile phone. A GSM modem accepts a SIM
card, and basically acts like a mobile phone for the computer. Traditional
modem is attached to computers for ‘dial-up’ to connect with other computer
systems. A GSM modem operates in a similar fashion, except that it sends and
receives data through radio waves rather than a telephone line. in this system
we use the GSM send notification to the cell phone person that in charge in
this case went its detect the signal from the sensor. With
this project we
detected increased levels of water in an
area and provide early warning
to residents about
any of flooding, with
this we can reduce
the cost of flood losses in the event of damage to property.
In this project also we combine
SCADA system to make easier the person
in charge to see
and monitoring the
system. The SCADA systems are used to monitor and
control a plant or equipment in industries such as telecommunications, water
and waste control, energy, oil and gas refining and transportation. A SCADA
system gathers information, such as where a leak on a pipeline has occurred,
transfers the information back to a central site, alerting the home station
that the leak has occurred, carrying out necessary analysis and control, such
as determining if the leak is critical, and displaying the information in a
logical and organized fashion. SCADA systems can be relatively simple, such as
one that monitors environmental conditions of a small office building, or
incredibly complex, such as a system that monitors all the activity in a
nuclear power plant or the activity of a municipal water system.
2.
Statement Problem
2.1
First
case:
Terengganu:
A total of 47 flood victims involving 11 families that had been evacuated to a
relief centre in Kampung Tasek in Setiu, Terengganu, are still there. A total
of 47 flood victims involving 11 families that had been evacuated to a relief
centre in Kampung Tasek in Setiu, Terengganu, are still there.
He said precautionary measures were
being taken with the Fire and Rescue Department on stand by for any emergency situation.
The Drainage and Irrigation Department Malaysia (JPS) has listed high water
levels for rivers in Setiu, Marang, Hulu Terengganu, Besut in Terengganu as
well as in Sik in Kedah.So far, 450 people in Johor, 48 people in Malacca and
47 people in Terengganu have been affected by the floods.
2.2
Second case:
Kuching: The
flood may have receded in most areas but the affected families are now counting
their losses. And a family from Kampung Karu, about 38 kilometres along Jalan
Puncak Borneo, among those affected by the flood, estimated their loss to be
almost RM10,000.
Among the damaged properties, the family claimed,
were eight cabinets, a laptop, a motorcar and a motorcycle which were submerged
by the flood waters, which rose nearly one metre high within five minutes. The
incident happened about 1am on Dec 26 during a heavy downpour
In this case they don’t know went the flood will happen, with this system, the sensor will detect the increase of water at river and give the signal to micro controller and micro controller send the data to GSM and GSM send the notification to the person in charge. After that we can tell to villages about the flood will happen. Therefore people can save their property before the flood
3. Objectives:
·
To monitoring flood system with SCADA.
·
To ensure GSM can work to send the data to the phone.
·
4. Technical Approach:
From this block
diagram, we can look the operation of flood monitoring system, in this project,
we use battery as a main supply to all component to operate. Sensor 1and sensor
2 are water level sensor to give the signal to microcontroller PIC and PIC that
have been program send the data to GSM. SCADA is a monitoring system to see the
operation or flow of project. The valve is to control water flow to the tank.
4.2 Overview Device
4.2.1 GSM modem
GSM modem is specialized type of
modem that operates over subscription based wireless networks which is similar
to a mobile phone. A GSM modem accepts a SIM card, and basically acts like a
mobile phone for the computer. Traditional modem is attached to computers for
‘dial-up’ to connect with other computer systems. A GSM modem operates in a
similar fashion, except that it sends and receives data through radio waves
rather than a telephone line.
- Besides the dial-up connection, GSM modem can also be used for sending and receiving SMS which is also one of the key features of GSM Modem are as follow:
- · RS-232 Interface
- · Tri-Band: GSM900, GSM1800 and GSM1900
- · Support TCP/IP
- · Support standard extended open AT commands
- · Support GPRS class 10
- · Accept supply voltage from 5 to 12V
- · Support PDU and Text mode for SMS
4.2.2 PIC 16F877A
There are three memory blocks in each of the PIC16F877A
MCUs. The Program Memory and Data Memory have separate buses so that concurrent
access can occur and is detailed in this section.
The PIC16F87X devices have a 13-bit program counter capable
of addressing an 8K x 14 program memory space. The PIC16F877/876 devices have
8K x 14 words of FLASH program memory, and the PIC16F873/874 devices have 4K x
14. Accessing a location above the physically implemented address will cause a
wraparound. The RESET vector is at 0000h and the interrupt vector is at 0004h.
|
Characteristic
|
PIC16F87X
|
|
Pins
|
28/40
|
|
Timers
|
3
|
|
Interrupts
|
13 or 14
|
|
Communication
|
PSP, USART,
SSP (SPI, I2C
Master/Slave)
|
|
Communication
|
20 MHz
|
|
Voltage
|
2.0V - 5.5V
|
|
A/D
|
10-bit
|
|
CCP
|
2
|
|
Program
Memory
|
4K, 8K
FLASH
|
|
RAM
|
192, 368
bytes
|
|
EEPROM data
|
128, 256
bytes
|
|
Other
|
In-Circuit
Debugger,
Low Voltage
Programming
|
|
|
4.2.3 MAX 232
The MAX232 contains four sections they are dual charge-pump
DC-DC voltage converters, RS 232 drivers, RS-232 receivers, and receiver and
transmitter enable control inputs. The MAX232 has two internal charge-pumps that
convert +5V to ±10V (unloaded) for RS-232 driver operation. The first converter
uses capacitor C1 to double the +5V input to +10V on C3 at the V+ output. The second
converter uses capacitor C2 to invert +10V to -10V on C4 at the V- output.
4.2.4
Float Switch (RSF50 Series)
The RSF50 series are compact
vertically mounted devices with a single switch point. Mounting is in the top
or bottom of the tank from the inside, so access to the inside of the tank is
required. Typical applications include printing systems and chemical dosing
equipment. They are manufactured in a variety of materials, with a choice of
gasket materials to suit most commonly used liquids. The switch action may be
reversed by removing the float, inverting it, and then refitting it to the
stem.
RSF50
Series Information:
- Vertical Float
- 25 VA Switching Power
- 0.6 Amp Switching Current
- NO/NC Contacts
- Compact Design
- Switching Power (VA): 25 Volt-Amps
- Switching Voltage AC: 240 Volts AC
- Switching Voltage DC: 120 Volts DC
5.
PROJECT MANAGEMENT
5.1 Budget
Table shown are expected cost and expenses in
order to complete the final project.
|
No
|
Components,
Circuits & Equipments
|
Estimated Price
(RM)
|
|
1
|
GSM modem
|
480.00
|
|
2
|
Pic Circuit
|
60.00
|
|
3
|
Component used
|
40.00
|
|
4
|
Water pump
|
30.00
|
|
|
|
|
|
|
|
|
|
|
TOTAL COST
|
610.00
|
*The
price is subject to change.
5.2
Gant
Chart
Project title:
Flood monitoring system using GSM
Below we can see the estimate time
to do the project, the project will start on 16 January 2012 and end at 13 September
2012. We take 1 year to complete this project.
6. Conclusion
In conclusion, we hope this
project can successful be accept and complete as soon as possible and follow
the schedule. By the research that has been done it is good enough for
improvement all part this project. Flood monitoring system will
be produce because to solve the current
situation using GSM module to send the notification before flood happens. In this
project also we have monitor the system automatically method if we use manually
method wee need to check every time at that place. To improve this monitoring
system we use SCADA to see and monitor the system running. SCADA has been
create to help we monitor every where in Malaysia. Flood monitoring system can
be commercial because it can help government to reduce losses went flood
happen.
7. References
