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S.J.C I

NSTITUTE OF

T

ECHNOLOGY DEPARTMENT OF COMPUTER SCIENCE & E NGINEERING .

Academic project Review on

“

Smartphone Application For Vehicle Tracking system using GPS/GSM/GPRS technology

”

Co-ordinator Mr. HARSHVARDHAN D Asst. Professor

Dept. of CSE

HOD Dr.S.N Chandrashekar Professor

Dept.of CSE

Under the Guidance of Mr. Shrihari M.R

Asst. professor

Dept.of CSE

Presented By: ANKITHA H PRITHVI KRISHNA D 1SJ11CS025 SREERAG PS 1SJ11CS007 1SJ12CS112 NIRANJAN RAO N 1SJ12CS064 1

CONTENT

ABSTRACT

 An efficient vehicle tracking system is designed and implemented for tracking the movement of any equipped vehicle from any location at any time.

 This will be easy to make and inexpensive compared to others. The designed in-vehicle device works using Global Positioning System (GPS) and Global system for mobile communication / General Packet Radio Service (GSM/GPRS) technology that is one of the most common ways for vehicle tracking.

 The proposed system made good use of a popular technology that combines a Smart phone application with a micro controller.

INTRODUCTION

 Vehicle Tracking System combines the use of automatic vehicle location in individual Vehicles with software that collects these fleet data for a compressive picture of vehicle location.

 Modern vehicle tracking system commonly use GPS (Global Position System) technology for locating the vehicle.

 Vehicle information can be viewed as electronic map.

 This device fits into the vehicle and captures the GPS location information apart from other vehicle information at regular intervals to a central server.

 The vehicle information includes engine control , geographical location etc.

ROBLEM STATEMENT

 To develop vehicular tracking system to monitor and Stolen vehicle recovery.

 The accessibility to the system from remote place system  To provide commuters with exact location of the vehicle through notification conveniently through a website or an android application.

EXISTING SYSTEM



On the architecture of vehicle tracking system using wireless sensor devices

 The focus of the proposed vehicle tracking system is to track the desired vehicle with low-cost, effective implementation as in contrast to the existing high-cost tracking systems  It is defined that packet structure for communication between the nodes. ( receiving & transmitting ends) 8



Vehicle Tracking and Locking System Based on GSM and GPS

 The place of the vehicle identified using Global Positioning system (GPS) and Global system mobile communication (GSM).

PROPOSED SYSTEM

 Acquisition of a vehicle's geographic coordinates and a vehicle’s unique ID from an in-vehicle device in real time using the GPS module.

 Whenever a user requests the vehicle location, it can be accessed and monitored on Google maps in real time using a Smart phone application.

SOFTWARE REQUIREMENTS

 Operating system - Windows XP  Technology - Java  Web Technologies - HTML, JavaScript, CSS  IDE - Eclipse, Android studio  Tool Kit - Android Phone  Database - My SQL  Kiel Micro vision. - Embedded c  WL pro 11

HARDWARE REQUIREMENTS

 Hardware - Core 2 duo  Speed -1.1GHz

 RAM -1GB  Hard Disk - 20GB        Key Board - Standard Windows Keyboard Power Supply - DC Adaptor Controller LCD GPS MAX232 GSM 12

CONCLUSION

 In-vehicle device, a Smart phone application is used for the vehicle tracking system.

 In this work, the in-vehicle device is composed of a micro controller and GPS/GSM/GPRS module to acquire the vehicle's location information and transmit it through GSM/GPRS network.

 Furthermore, our implementation is low-cost that is based on easily accessible off-the-shelf electronic modules.

 A vehicle's geographic coordinates and a vehicle’s unique ID obtained from an in-vehicle device are recorded in a database table. And a Smart phone application has been created to display a vehicle location on Google maps.

 The system was able to experimentally demonstrate its effective performance to track a vehicle’s location anytime from anywhere.

R

EFERENCES  [1] B. C. B. S. Anil Gaire, "GPS GSM Integration for Enhancing Public Transportation System," Lalitpur, 2013.

 [2] D. S. W. Andrew Sloss, ARM System Developer's Guide, San Francisco: Morgan Kaufmann, March 2004. pg. 103-155  [3] E. H. H. J. Xiaoya Guo, "Design a Smart Bus System," [Online].

Available: http://www.ece.uvic.ca/~bhung/399/minutes/Final_Report.pdf.

[Accessed 20 february 2014].

 [4] G. Developers, "Android Application Development.," [Online].

Available: http://developer.android.com/training/index.html. [Accessed 20 july 2014].

 [5] "Manual of Board ET-BASE GSM SIM900," [Online]. Available: http://www.etteam.com. [Accessed 6 june 2014].

 [6] P. K. R. C. Bikash Poudel, "A Training M anual on FPGA and ARM," kathmandu.