1. VEHICLE TRACKING
SYSTEM
PREPARED BY:
1.Nishil .H. Patel. (09080011017)
2.Rashmi .R. Basantani. (090800111045)
EXTERNAL GUIDE: INTERNALGUIDE:
Mr.Mayank Patel. Prof.Rushali Narwekar
SmartTec Solution E & C Department
GROUP NO:5

2. VEHICLE TRACKING SYSTEM
Based on GPS module, GSM modem, and
ARM7(LPC2129).

3. PROJECT SCHEDULE OF 7TH SEM
MONTH JULY AUG SEP OCT
WEEK 1
BASIC
INFORMATION
ABOUT
PROJECT
PROGRAMMING
:ARRAY &
POINTER
PROGRAMMIN
G :LED
PATTERNS &
INTERRUPT
NA
WEEK 2
THEORY
SESSION
OF C
LANGUAGE
PROGRAMMING
:PATTERNS NA
PROGRAMM
ING:LCD
WEEK 3
PROGRAMMIN
G USING C
CONCEPTS
NA
PROGRAMMIN
G:TIMER/COU
NTER,SERIAL
MADE 8051
KIT
WEEK 4
PROGRAMMIN
G:STRUCTURE
&
FUNCTIONS
THEORY
SESSION ON
8051
NA
8051
PROGRAMM
ING ON
HARDWARD
E KIT

4. FLOW OF PRESENTATION
• Introduction
• Need of VTS
• Technology used for VTS
• Modules
• Block diagram
• Flow chart
• Application
• Conclusion
• Future expansion
• References

5. INTRODUCTION
 Vehicle tracking system
is software and hardware
system enabling the
vehicle owner to track
the position of their
vehicle.
 VTS module is attached
to each vehicle.

6. NEED OF VTS
 Fuel and Power Saving
 Effective Fleet Control
 Instantaneous Fuel Level Monitoring
 Decreasing the Accident Risk
 Driver and Load Security
 Evaluation of Drivers Performance
 Monitoring the Delivery Time

7. TECHNOLOGY USED FOR VTS
 Instantaneous Location Targeting
• Positioning with the help of GPS Satellite
 Acknowledging the Position
• via GSM, SMS or Data Line
 Monitoring the Vehicle Online
• Tracking the position of the vehicle on digital maps via an
online monitoring program

8. MODULES
 HARDWARE
 SOFTWARE

9. HARDWARE
• GPS Modem: (NAVISYS GM 330D)
• Micro controller: LPC2129(Philips)
• GSM Modem: Standard GSM modem (SIM
300)
• Sim Card: Standard 16k Gsm sim

10. SOFTWARE
• Ide : KEIL MICRO-VISION-4
• Tool chains: STANDARD- ARM
COMPILER/DEBUGGER
• Programming language: EMBEDDED –C
• Protocols : UART, I2C, NMEA

11. BLOCK DIAGRAM OF VTS

12. ROLE OF EACH MODULES THAT ARE
DESCRIBED IN ABOVE BLOCK
DIAGRAM:-

13. PROJECT FLOW…..
GPS MODULE

15. PROJECT FLOW…..
GPS MODULE
• The NAVSTAR GPS is a collection of Satellites, which
monitors the Longitude and Longitudes of a particular
position.
• The Signal from the GPS satellites are received and the
receiver used a standard form of message decoding.
These standards are called as NMEA .

16. PROJECT FLOW…..
GPS MODULE
 A GPS signal contains three different bits of
information:
• Pseudorandom
• Ephemeris data
• Almanac data

17. PROJECT FLOW…..
GSM MODEM

19. PROJECT FLOW…..
GSM MODEM
• It’s require in VTS because GPS can normally only
receive location information from satellites but can not
communicate back with them.
• It Support instructions of AT commands.

20. PROJECT FLOW…..
ARM 7(LPC 2129)

22. PROJECT FLOW…..
ARM7(LPC 2129)
• The heart of this project is a micro controller
ARM7TDMI-S(LPC2129).
• Micro controller will play important role in sending and
receiving commands to GPS.
• Micro Controller extracts the location name and send the
same to the GSM via serial communication.

23. PROJECT FLOW…..
MAX 232

24. PROJECT FLOW…..
MAX 232
• MAX 232 is an dual driver/receiver.
• It’s Function is to convert TTL Logic level to RS232
logic level during serial communication of
microcontroller with PC.
RS 232 TTL LOGIC
-25V TO -3V +2V TO +5V HIGH
+3V TO +25V 0V TO 0.8V LOW

25. PROJECT FLOW…..
MAX 232
 We Required RS232 Because:
• TTL Logic level(0-5V)and
• RS 232 Standards (-25V to +25V)
• Hence it is difficult to establish a direct link.
• We go for an intermediate link i.e. MAX 232.

26. PROJECT FLOW…..
LCD

27. PROJECT FLOW…..
LCD (2X16)
• The data displayed on LCD is the latitude and longitude
of particular location where you keep the antenna of the
receiver. In this way a Particular Location is identified.

28.  FLOW CHART REPRESENTATION OFA
PROCESS:

30. RESULT ANALYSIS

31. RESULT DISPLAYED ON LCD & MOBILE

32. RESULT DISPLAYED ON SERVER

33. DISADVANTAGES
• This system required static IP address to connect
to the device.
• It can’t measure vehicle fuel.
• It can’t do speed limit.
• It can’t handle group tracking at a time.

34. APPLICATIONS
• Buses and trains
• Position tracking
• Anti theft system
• Controlling vehicle

35. CONCLUSION
 In this semester we have made following programs based
on ARM7:
• LED Patterns
• Timer/Counter
• Serial
• LCD display

36. CONTINUE. . . .
 Studying the GPS, GSM, GPRS Architectures, features
etc.
 Studying the various hardware sections such as ARM 7
processor, LCD, MAX 232, GPS and GSM MODEM.
 Getting user friendly with the software.

37. FUTURE EXPANSION
 We will track the position of vehicles or we can send
information about vehicle to distant user on GOOGLE
MAP as well as we can show the running position of a
vehicle.
 The cost of on prototype of our project includes GSM
modem, which is quite high and can be reduced by
designing a GSM modem or by using any other optional
wireless medium to communicate with the base server.

38. REFERENCES
 Book References:
• Let us C, by Y.P.kanetkar.
• Wireless Communication By Theodore S. Rappaport,
Second Edition.
• The 8051 microcontroller and embedded system, by
Muhammaad ali mazidi.

39. CONTINUE…..
 Web References:
• www.wikipedia.com
• www.electronics4u.com
• www.alldatasheet.com
• www.8051projects.net

40. MONTH JANUARY FEBRUARY MARCH
WEEK1 Study of GSM AT
commands and done
practical’s, tried to
capturing data from
GPS
Programming of
Sending the same
string to GSM that we
have received from
satellite, interfacing of
lpc2129 with GPS and
GSM
WEEK2 Theory session of
ARM, studied detail
data sheet of ARM7
program about how
the data coming from
satellite to GPS,
performed that
program on hardware
Study about GPRS
commands, trying to
send all that string to
particular IP address
WEEk3 done that same
programs that we had
done in 8051 but now
using ARM7
Separating the strings
that are received from
GPS, displayed that
string on LCD
Performed that GPRS
program on
hardware.Learnt about
geofencing
WEEK4 Displaying our name
and project name on
LCD
Done interfacing of
GPS and lpc2129,
programming of call,
Finally combined all
the individual
interfacings which