Automatic Vehicle Ignition control Tracking Interlocking system using

Automatic Vehicle Ignition control, Tracking & Interlocking system using GSM & GPS Technology Jatin Charola GTU AHMEDABAD ABSTRACT MATERILES & METHODS RELAY This projects deals with the design & development of a theft control system for an automobile, which is being used to prevent/control theft of a vehicle. The developed system makes use of an embedded system based on Global System for Mobile communication (GSM) technology. One can control the ignition of the engine; say to lock it or to stop the engine immediately. The main concept in this design is introducing the mobile communication into an embedded system. The designed unit is very simple& low cost. The entire designed unit is on a single chip OBJECTIVE AND GOALS OF PORJECT The objective of the circuit is to build an microcontroller based on the functions of a 8051 integrated circuit. The main aim of the project is to design and develop an advanced vehicle locking system in the real time environment. The user can send a STATUS message from his cell phone and as soon as the GSM module gets the message, it will check for the user’s authentication and if found to be valid, it will immediately send the details of the locations like the latitude and the longitude using GPS module. So the user can get to know the exact location of the vehicle. At the same time message will b sent to a personal computer where user can get the exact location of vehicle pointed out on the Google maps. SOFTWARE DESCRIPTION Keil Uvision 4 The µVision IDE from Keil combines project management make facilities, source code editing, program debugging, and complete simulation in one powerful environment. The µVision development platform is easy-to-use and helping you quickly create embedded programs that work. The µVision editor and debugger are integrated in a single application that provides a seamless embedded project development environment. Microcontroller- AT 89 S 52 The 8051 family of microcontrollers is based on an architecture which is highly optimized for embedded control systems. It is used in a wide variety of applications from military equipment to automobiles to the keyboard. The AT 89 S 52 is a low-power, high-performance CMOS 8 -bit microcontroller with 8 K bytes of in-system programmable Flash memory. The device is manufactured using Atmel’s high-density nonvolatile memory technology and is compatible with the industry- standard 80 C 51 instruction set and pin out. This microcontroller had 128 bytes of RAM, 4 K bytes of on-chip ROM, two timers, one serial port and four ports(each 8 -bits wide) all on a single chip. RESULTS REFERENCES The 8051 Microcontroller by Kenneth J. Ayala The 8051 Microcontroller and Embedded Systems by Muhammad Ali Mazidi. Principles and Applications of GSM by Vijay Garg. http: //www. mobilegpsonline. com/downloads/GM 2829%20 Datasheet%20 R 1 G. pdf http: //www. mobilegpsonline. com/GSMJC 01 Spec. pdf http: //www. visualgsm. com/wire_sms_index. htm GSM MODEM This GSM modem is a highly flexible plug and play quad band GSM modem for direct and easy integration to RS 232. Supports features like Voice, Data/Fax, SMS, GPRS and integrated TCP/IPstack The Global Positioning System (GPS) is global navigation satellite system which uses a constellation of between 24 and 32 Medium Earth Orbit Satellites that transmit precise microwave signals that enable GPS receivers to determine their location, speed, direction, and time. www. Poster. Presentations. com A relay circuit is typically a smaller switch or device which drives (opens/closes) an electric switch that is capable of carrying much larger current amounts. Or a circuit which operates the coil or electronic actuator· from one source and uses a separate power source to drive an isolated device. Generally speaking, a relay circuit is a circuit that uses a small mechanical switch or a semiconductor device (with associated circuitry) to energize a· relay, which will then close a contact set to complete another circuit. This· system is used by most people on a daily basis, and it is used to start a motor· vehicle. In the present growing economy of India, the country also faces the uprising of crime Rate. The offense has generated losses in properties, valuables and money and many Solutions are performed to minimize and to prevent the crime. Vehicles theft, which is the main concern for the conduct of this project, is one of the biggest crimes which are hard to eliminate. The latest trend of Vehicles theft involves the vehicles being towed away, and also alarm signal capturing where the alarm disabler signal can be traced and duplicate by a thief with the device to capture the signal and use it to disable the alarm. There are many alternatives to prevent the vehicles theft, common vehicles alarm system which nearly all cars have the system installed, and also Global Positioning System (GPS) where the whereabouts of the vehicle scan be traced. Other alternatives include steering and gear lock, tire lock, hidden “kill” switches which incapacitate fuel flow and many others. ACKNOWLEDGEMENT GPS MODEM RESEARCH POSTER PRESENTATION DESIGN © 2012 CONCLUSIONS This project deals with the design & development of a theft control system for an automobile, which is being used to prevent or control theft of a vehicle. This system is designed to improve vehicle security and accessibility. With the use of wireless technology vehicle owners are able to enter as well as protect their automobiles with more passive involvement. Ideally, this project could be made more convenient and secure with the use of satellite modems instead of cell phones as tracking device as the system may fail when there is no network coverage. At this moment of accomplishment, we are presenting our work with great pride and pleasure, we would like to express our sincere gratitude to all those who helped us in the successful completion of our venture. First of all we would like to thank our Principal who provided us with all facilities and amenities for the development of our project. We would like to thank our HOD Mr. Bhavesh Patel and Project Guide, Mr. Vishal Jethva for helping us in the successful accomplishment of our project and gave us constant guidance and support throughout this journey of turbulence. We are exceedingly grateful to our project coordinator Mr. Sachin Sharma for his timely and valuable suggestions. We also sincerely thank Lab Technicians, department of Electronics and Communication for constant support and encouragement for our project. We would also like to thank our parents and friends for their over whelming and whole hearted encouragement and support without which this would not have been successful. Above all we thank God almighty for constantly motivating us with His love, and giving us courage at each stride to step forward with confidence and self –belief.