This document summarizes a research paper on the design and implementation of a vehicle tracking system using GPS. The system uses an in-vehicle unit with sensors and a GPS receiver to track the location of the vehicle. The location data is transmitted to a remote tracking server using GSM/GPRS. The tracking server stores the location information in a database and makes it available online to authorized users. The system is intended to provide vehicle security features like anti-theft tracking and monitoring of door open/close status. The paper describes the hardware and software design of both the in-vehicle unit and tracking server.
gps gsm based vehicle tracking system seminarhiharshal277
This document provides an overview of a seminar report on a GPS-GSM based vehicle tracking system. It includes a certificate verifying the student completed the seminar work under faculty guidance. The abstract indicates the system combines a GPS device and GSM modem in a vehicle to track its location and send updates to the owner via SMS if theft is detected. The introduction describes typical components of a vehicle tracking system including the vehicle unit, base station, and software. The report will cover the system hardware, methodology, applications, advantages and disadvantages.
In this project we are going to make an embedded system which will help to provide protection against theft. This system will send the data to the user who want to track the vehicle showing the using position of vehicle in terms of latitude and longitude. Most of the people know that GPS is more secure but they don’t apply because it is expensive. This design is needed for the real time location of the vehicle. It changes the microcontroller P89V51RD2 interfaces with various hardware peripheries this uncontrolled interfaces serially with GSM modem and GPS receiver.
GPS based Advanced Vehicle Tracking and Vehicle Control SystemMashood Mukhtar
Security systems and navigators have always been a
necessity of human‟s life. The developments of advanced
electronics have brought revolutionary changes in these fields. In this paper, we will present a vehicle tracking system that employs a GPS module and a GSM modem to find the location of a vehicle and offers a range of control features. To complete the design successfully, a GPS unit, two relays, a GSM Modem and two MCU units are used. There are five features introduced in the project. The aim of this project is to remotely track a vehicle‟s location, remotely switch ON and OFF the vehicle‟s ignition system and remotely lock and unlock the doors of the vehicle. An SMS message is sent to the tracking system and the system responds to the users request by performing appropriate actions. Short text messages are assigned to each of these features. A webpage is specifically designed to view the vehicle‟s location on Google maps. By using relay based control concept introduced in this paper, number of control features
such as turning heater on/off, radio on/off etc. can be
implemented in the same fashion.
The paper describe a practical model for routing and tracking of mobile vehicles in a large area outdoor environment based on the Global positioning system (GPS) and Global system for mobile communication (GSM). The supporting device GPS continuously move with the car and will calculate the co-ordinates of each position and when required by the owner it can be communicated with the help of GSM modem which is installed in both Transmitter and receiver section. GSM modem is controlled by a 32 bit ARM7 LPC2148. The device will collect position to supervised center by the SMS (Short Message Service) or GPRS (General Package radio service) and which can be located in the Google Earth and so the current position of the car can be known.
The main goal of this presentation is how to do research in particular field of engineering. For an example this presentation describes design of Vehicle tracking and monitoring system. So how to do research in particular field by referring standard IEEE papers is described in this presentation.
IoT BASED VEHICLE TRACKING AND TRAFFIC SURVIELLENCE SYSTEMjohn solomon j
ii
ABSTRACT GPS is one of the technologies that are used in a huge number of applications today. One of the applications is tracking your vehicle and keeps regular monitoring on them. This tracking system can inform you the location and route travelled by vehicle, and that information can be observed from any other remote location. It also includes the web application that provides you exact location of target and the exact speed the vehicle is moving which is used to generate bills for over speeding automatically. This system enables us to track target in any weather conditions. This system uses GPS and Zigbee technologies. This includes the hardware part which comprises of GPS, Zigbee, ATmega microcontroller and software part is used for interfacing all the required modules and a web application is also developed at the client side and visualize data from IoT. Main objective is to design a system that can be easily installed and to provide platform for further enhancement. KEYWORDS GPS, ZigBee, Tracking System, IoT
iii
Real Time Vehicle Monitoring Using Raspberry Pi Albin George
An advanced vehicle monitoring and tracking system based on Embedded Linux Board and android application is designed and implemented for monitoring the school vehicle from any location A to location B at real time. The proposed system would make good use of new technology that based on Embedded Linux board namely Raspberry Pi and Smartphone android application. The proposed system works on GPS/GPRS/GSM SIM900A Module which includes all the three things namely GPS GPRS GSM. The GPS current location of the vehicle; GPRS sends the tracking information to the server and the GSM is used for sending alert message to vehicle’s owner mobile. The proposed system would place inside the vehicle whose position is to be determined on the web page and monitored at real time. In the proposed system, there is comparison between the current vehicle path and already specified path into the file system of raspberry pi. Here in the proposed system the already specified path inside the raspberry pi’s file system taken from vehicle owner’s android smartphone using android application. Means the selection of path from location A to B takes place from vehicle owner’s android application which gives more safety and secures traveling to the traveler. Hence the driver drives the vehicle only on the vehicle owner’s specified path. If the driver drives the vehicle on the wrong path then the alert message will be sent from the proposed system to the vehicle’s owner mobile and also speakers alert driven using Raspberry pi’s audio jack. If the vehicle’s speed goes beyond the specified value of the speed, then also the warning message will be sent from system to the owner mobile. The proposed system also took care of the traveler’s safety by using LPG Gas leakage sensor MQ6 and temperature sensor DS18B20.
Here we are making a project which just traces our vehicle location, in terms of its precise latitude and longitude and then send it to a mobile number (as per our requirement). This project consists of three main devices which are :- (i) Arduino UNO, (ii) GPS module (Neo-6M), & (iii) GSM- 900A.These all three devices will be going to be installed in the vehicle to which we want to trace. Initially what happened that we make a program in arduino (in C language) regarding interfacing the GSM device and GPS device. And we also set a mobile number in the program as per our need, on which we get the info regarding its (vehicle’s) location. First of all we make a call to the mobile number which has been installed in the GSM module and then after some specific delay (as per mentioned in the program) we get a sms regarding the exact latitude and longitude of the vehicle. It is done in a way that GPS device is continuously receiving the location of the vehicle from the satellite and then transferring to the arduino board, from where we send it to the required mobile no. And hence in this way we can easily get info regarding the exact location of the vehicle. Once the message has been sent to the predefined mobile no. the GSM gets deactivated and the GPS gets activated. Thus we can easily trace our vehicle. Vehicle Tracking System (VTS) is the technology used to determine the location of a vehicle using different methods like GPS and other radio navigation systems operating through satellites and ground based stations. This system is an important tool for tracking each vehicle at a given period of time and now it is becoming increasingly popular for people having expensive cars and hence as theft prevention and retrieval device.
gps gsm based vehicle tracking system seminarhiharshal277
This document provides an overview of a seminar report on a GPS-GSM based vehicle tracking system. It includes a certificate verifying the student completed the seminar work under faculty guidance. The abstract indicates the system combines a GPS device and GSM modem in a vehicle to track its location and send updates to the owner via SMS if theft is detected. The introduction describes typical components of a vehicle tracking system including the vehicle unit, base station, and software. The report will cover the system hardware, methodology, applications, advantages and disadvantages.
In this project we are going to make an embedded system which will help to provide protection against theft. This system will send the data to the user who want to track the vehicle showing the using position of vehicle in terms of latitude and longitude. Most of the people know that GPS is more secure but they don’t apply because it is expensive. This design is needed for the real time location of the vehicle. It changes the microcontroller P89V51RD2 interfaces with various hardware peripheries this uncontrolled interfaces serially with GSM modem and GPS receiver.
GPS based Advanced Vehicle Tracking and Vehicle Control SystemMashood Mukhtar
Security systems and navigators have always been a
necessity of human‟s life. The developments of advanced
electronics have brought revolutionary changes in these fields. In this paper, we will present a vehicle tracking system that employs a GPS module and a GSM modem to find the location of a vehicle and offers a range of control features. To complete the design successfully, a GPS unit, two relays, a GSM Modem and two MCU units are used. There are five features introduced in the project. The aim of this project is to remotely track a vehicle‟s location, remotely switch ON and OFF the vehicle‟s ignition system and remotely lock and unlock the doors of the vehicle. An SMS message is sent to the tracking system and the system responds to the users request by performing appropriate actions. Short text messages are assigned to each of these features. A webpage is specifically designed to view the vehicle‟s location on Google maps. By using relay based control concept introduced in this paper, number of control features
such as turning heater on/off, radio on/off etc. can be
implemented in the same fashion.
The paper describe a practical model for routing and tracking of mobile vehicles in a large area outdoor environment based on the Global positioning system (GPS) and Global system for mobile communication (GSM). The supporting device GPS continuously move with the car and will calculate the co-ordinates of each position and when required by the owner it can be communicated with the help of GSM modem which is installed in both Transmitter and receiver section. GSM modem is controlled by a 32 bit ARM7 LPC2148. The device will collect position to supervised center by the SMS (Short Message Service) or GPRS (General Package radio service) and which can be located in the Google Earth and so the current position of the car can be known.
The main goal of this presentation is how to do research in particular field of engineering. For an example this presentation describes design of Vehicle tracking and monitoring system. So how to do research in particular field by referring standard IEEE papers is described in this presentation.
IoT BASED VEHICLE TRACKING AND TRAFFIC SURVIELLENCE SYSTEMjohn solomon j
ii
ABSTRACT GPS is one of the technologies that are used in a huge number of applications today. One of the applications is tracking your vehicle and keeps regular monitoring on them. This tracking system can inform you the location and route travelled by vehicle, and that information can be observed from any other remote location. It also includes the web application that provides you exact location of target and the exact speed the vehicle is moving which is used to generate bills for over speeding automatically. This system enables us to track target in any weather conditions. This system uses GPS and Zigbee technologies. This includes the hardware part which comprises of GPS, Zigbee, ATmega microcontroller and software part is used for interfacing all the required modules and a web application is also developed at the client side and visualize data from IoT. Main objective is to design a system that can be easily installed and to provide platform for further enhancement. KEYWORDS GPS, ZigBee, Tracking System, IoT
iii
Real Time Vehicle Monitoring Using Raspberry Pi Albin George
An advanced vehicle monitoring and tracking system based on Embedded Linux Board and android application is designed and implemented for monitoring the school vehicle from any location A to location B at real time. The proposed system would make good use of new technology that based on Embedded Linux board namely Raspberry Pi and Smartphone android application. The proposed system works on GPS/GPRS/GSM SIM900A Module which includes all the three things namely GPS GPRS GSM. The GPS current location of the vehicle; GPRS sends the tracking information to the server and the GSM is used for sending alert message to vehicle’s owner mobile. The proposed system would place inside the vehicle whose position is to be determined on the web page and monitored at real time. In the proposed system, there is comparison between the current vehicle path and already specified path into the file system of raspberry pi. Here in the proposed system the already specified path inside the raspberry pi’s file system taken from vehicle owner’s android smartphone using android application. Means the selection of path from location A to B takes place from vehicle owner’s android application which gives more safety and secures traveling to the traveler. Hence the driver drives the vehicle only on the vehicle owner’s specified path. If the driver drives the vehicle on the wrong path then the alert message will be sent from the proposed system to the vehicle’s owner mobile and also speakers alert driven using Raspberry pi’s audio jack. If the vehicle’s speed goes beyond the specified value of the speed, then also the warning message will be sent from system to the owner mobile. The proposed system also took care of the traveler’s safety by using LPG Gas leakage sensor MQ6 and temperature sensor DS18B20.
Here we are making a project which just traces our vehicle location, in terms of its precise latitude and longitude and then send it to a mobile number (as per our requirement). This project consists of three main devices which are :- (i) Arduino UNO, (ii) GPS module (Neo-6M), & (iii) GSM- 900A.These all three devices will be going to be installed in the vehicle to which we want to trace. Initially what happened that we make a program in arduino (in C language) regarding interfacing the GSM device and GPS device. And we also set a mobile number in the program as per our need, on which we get the info regarding its (vehicle’s) location. First of all we make a call to the mobile number which has been installed in the GSM module and then after some specific delay (as per mentioned in the program) we get a sms regarding the exact latitude and longitude of the vehicle. It is done in a way that GPS device is continuously receiving the location of the vehicle from the satellite and then transferring to the arduino board, from where we send it to the required mobile no. And hence in this way we can easily get info regarding the exact location of the vehicle. Once the message has been sent to the predefined mobile no. the GSM gets deactivated and the GPS gets activated. Thus we can easily trace our vehicle. Vehicle Tracking System (VTS) is the technology used to determine the location of a vehicle using different methods like GPS and other radio navigation systems operating through satellites and ground based stations. This system is an important tool for tracking each vehicle at a given period of time and now it is becoming increasingly popular for people having expensive cars and hence as theft prevention and retrieval device.
Our domain expertise has enabled us to come up with an excellent assortment of GPS GSM Vehicle Tracking System.Waterproof GPS/GSM vehicle tracker,Waterproof housing (IP67), Large Flash memory (16MB!).
This project presents a vehicle tracking system that uses a GPS module and GSM modem to track vehicle location via text messages. The system includes a microcontroller that receives location coordinates from the GPS module and sends this information via SMS to authorized users. It provides real-time vehicle tracking and can send alerts in emergencies. Potential applications include fleet management, theft protection, and monitoring school buses or rental vehicles. The presentation outlines the key components, working principle, and a demonstration of tracking a vehicle location on an online map using longitude and latitude coordinates from an SMS.
This document is a project report on a vehicle tracking system using GSM, GPS and an ARM7 microcontroller. It consists of an introduction describing typical vehicle tracking systems and their components. It then discusses the hardware components involved including the GPS, GSM and ARM7 microcontroller. It also covers the working principles of these hardware components and interfaces such as RS232. The document outlines the overall working of the vehicle tracking system, software used for programming the microcontroller, and applications of such a system.
vehicle traking based on GSM/GPS using 8051Sagar Parmar
This document is a synopsis for a student project on a GSM/GPS-based vehicle tracking system. It includes an abstract describing the system components like an AT89C2051 microcontroller, LCD display, RS-232 interface, GPS and GSM modems. The system uses the GPS modem to get location coordinates and sends them via GSM modem as SMS messages containing a Google Maps link to track the vehicle's location. It was submitted by three students for their Bachelor's degree and approved by examiners and their guide.
Vehicle tracking systems use GPS and other technologies to determine the location of vehicles. They are used widely for fleet management, transit systems, and as a theft deterrent for personal vehicles. There are three main types of GPS vehicle tracking: mobile phone-based systems which send location data every few minutes for a monthly fee; wireless passive systems which have a higher upfront cost but no monthly fees and only track location when near the base; and real-time satellite systems which provide constant location updates for a higher total cost. Vehicle tracking provides security benefits and can help recover stolen vehicles.
REAL-TIME VEHICLE LOCKING AND TRACKING SYSTEM USING GSM AND GPS TECHNOLOGY-A...Sandeep Kunsoth
This project presents a real-time vehicle locking and tracking system using GSM and GPS technology as an anti-theft system. The system permits localization of the automobile and transmitting the position to the owner on his mobile phone as a short message (SMS) at his request. It is composed of a GPS receiver, microcontroller and GSM modem. The microcontroller processes location data from the GPS receiver and sends it to the user via the GSM modem. It is a low-cost solution for tracking vehicles in case of theft and monitoring drivers.
Under CyberLab Security Division CyberLab Provides Vehicle Tracking System To Track Personal Vehicles, Fleets, Cabs, Trucks, School Buses and Personal Tracking System. For more Info Visit:
www.CyberLabZone.com
ANTI-VEHICLE TRACKING SYSTEM USING SMARTPHONE APPLICATION DrunkenSoul
This document describes the design of a vehicle tracking system using GPS and GSM technologies along with a smartphone application. The system has two main units - a vehicle unit that tracks the vehicle's location using a GPS module and transmits it via GSM/GPRS to a remote server, and a monitoring unit where the user can track the vehicle on a smartphone application. The system aims to provide security for parked vehicles and allow users to locate a stolen vehicle. It was designed using an Arduino microcontroller, GPS and GSM modules, and can find various applications like fleet management and monitoring drivers.
This project is about tracking system that tracks vehicle using gps and gsm/gprs. Also, it displays information for user interface using web and mobile application.Beside that it displays information on lcd as a form of public notice board too.
ACCIDENT DETECTION AND VEHICLE TRACKING USING GPS,GSM AND MEMSKrishna Moparthi
This document describes a vehicle accident detection and tracking system using GPS, GSM, and MEMS sensors. The system detects accidents using a MEMS sensor and then uses GPS to determine the vehicle's location. The location is sent via GSM to emergency services and authorized contacts to provide rapid response. The system aims to quickly locate accident sites and notify help in remote areas with limited communication infrastructure.
Vehicle Tracking System for School Bus by ArduinoIRJET Journal
This document describes a vehicle tracking system using GPS and GPRS technology to track school buses in real-time. The system uses a GPS receiver module to obtain location coordinates and a GPRS module to send the data via TCP/IP to a tracking server. The tracking server stores the location information in a database and makes it available on a map interface for authorized users. The system was implemented using an Arduino microcontroller board connected to a GPS and GPRS shield module. Test results demonstrated the system could successfully track multiple buses on their routes and display their locations on an online map.
Vehicle Tracking System (VTS) enables realtime monitoring and controlling of vehicles using easy software interface.
VTS uses GPS/GLONASS and GSM based services along many software components to make this work.
This document summarizes a student project on a GPS and GSM-based vehicle theft control system. The system uses GPS to track the exact location of a vehicle through latitude and longitude coordinates. The GPS location is sent via GSM modem to a remote location and displayed on Google Earth. The proposed system aims to both monitor and locate a vehicle to ensure security by integrating GPS and GSM technologies.
This document provides information about a vehicle tracking system project developed by students using ARM7 microcontroller, GPS and GSM modules. The system tracks vehicle location using GPS and sends it via GSM to a monitoring station. Key components include a GPS module to get location, GSM modem to send data, ARM7 microcontroller to process data, and MAX232 for logic level conversion during serial communication. The location is also displayed on an LCD. The system was tested and able to retrieve vehicle position from GPS and send it via GSM. Future work includes reducing costs and adding features like speed tracking, fuel monitoring and group tracking.
you can be friend with me on orkut
"mangalforyou@gmail.com" : i belive in sharing the knowledge so please send project reports ,seminar and ppt. to me .
The main objective of our project is to provide an optimum solution to the traffic hazards and the road accidents. According to this project when a vehicle meets with an accident, immediately vibration sensor will detect the signal and sends it to ARM controller. Microcontroller sends the alert message through the GSM MODEM including the location to police control room or a rescue team. So the police can immediately trace the location through the GPS MODEM after receiving the information.
This system builds a new intelligent vehicle checking system based on ARM7 embedded processing technology, processing technology of digital videos, vehicle identification technology, GSM wireless mobile telecommunication technology, GPS positioning technique, implements the checking to vehicles which break the rules or owe the charge. Here we are using car as mobile vehicle checker.
Vehicle tracking system using gps and google mapsanchit bhargava
This project describe how vehicle can be tracked through help of GPS (Global Positioning System) and then using Google Map we can easily put coordinates on the map to find exact locations. with that a software which monitoring every routine of vehicle.
The GPS tracking system has integrated GPS and GPRS capabilities for accurate vehicle tracking along with SMS-based remote monitoring and control via mobile phones. It supports positioning, control functions, and alarms that are accessed via SMS including location tracking, door locking, and alerts for unauthorized vehicle movement, accidents, or break-ins. The system has a rechargeable battery backup and is designed to be rugged, cheap, and reliable meeting automotive industry standards.
ADVANCED BIKE SECURITY SYSTEM USING GSM AND GPSEG TECHNOLOGIES
This document describes the design and development of an advanced bike security system using GSM and GPS technologies. The system is intended to prevent bike theft by tracking the location of a stolen bike and allowing the owner to remotely lock the engine. It consists of a microcontroller interfaced with a GSM module and GPS receiver. When a theft occurs, the GPS module sends the bike's coordinates via SMS to the owner's phone. The owner can then send a message to lock the engine. The system provides bike tracking, theft notification, and remote immobilization in a simple, low-cost package.
This document describes a vehicle tracking and monitoring system that uses GPS, GSM, and a microcontroller to track vehicles in real-time. It consists of three main parts: a vehicle unit with a GPS/GSM modem that collects location data and sends it to a server, fixed base stations that receive and forward data to a data center, and a database and software that stores location information and allows users to view vehicle locations on digital maps via the internet. The system also includes modules to detect driver drowsiness using eye blink sensors, alert drivers to traffic signal violations and speed limits using RF technology, and trigger alerts if vehicle components are removed to prevent theft. The project report presenting this system is organized into five chapters covering introduction
Our domain expertise has enabled us to come up with an excellent assortment of GPS GSM Vehicle Tracking System.Waterproof GPS/GSM vehicle tracker,Waterproof housing (IP67), Large Flash memory (16MB!).
This project presents a vehicle tracking system that uses a GPS module and GSM modem to track vehicle location via text messages. The system includes a microcontroller that receives location coordinates from the GPS module and sends this information via SMS to authorized users. It provides real-time vehicle tracking and can send alerts in emergencies. Potential applications include fleet management, theft protection, and monitoring school buses or rental vehicles. The presentation outlines the key components, working principle, and a demonstration of tracking a vehicle location on an online map using longitude and latitude coordinates from an SMS.
This document is a project report on a vehicle tracking system using GSM, GPS and an ARM7 microcontroller. It consists of an introduction describing typical vehicle tracking systems and their components. It then discusses the hardware components involved including the GPS, GSM and ARM7 microcontroller. It also covers the working principles of these hardware components and interfaces such as RS232. The document outlines the overall working of the vehicle tracking system, software used for programming the microcontroller, and applications of such a system.
vehicle traking based on GSM/GPS using 8051Sagar Parmar
This document is a synopsis for a student project on a GSM/GPS-based vehicle tracking system. It includes an abstract describing the system components like an AT89C2051 microcontroller, LCD display, RS-232 interface, GPS and GSM modems. The system uses the GPS modem to get location coordinates and sends them via GSM modem as SMS messages containing a Google Maps link to track the vehicle's location. It was submitted by three students for their Bachelor's degree and approved by examiners and their guide.
Vehicle tracking systems use GPS and other technologies to determine the location of vehicles. They are used widely for fleet management, transit systems, and as a theft deterrent for personal vehicles. There are three main types of GPS vehicle tracking: mobile phone-based systems which send location data every few minutes for a monthly fee; wireless passive systems which have a higher upfront cost but no monthly fees and only track location when near the base; and real-time satellite systems which provide constant location updates for a higher total cost. Vehicle tracking provides security benefits and can help recover stolen vehicles.
REAL-TIME VEHICLE LOCKING AND TRACKING SYSTEM USING GSM AND GPS TECHNOLOGY-A...Sandeep Kunsoth
This project presents a real-time vehicle locking and tracking system using GSM and GPS technology as an anti-theft system. The system permits localization of the automobile and transmitting the position to the owner on his mobile phone as a short message (SMS) at his request. It is composed of a GPS receiver, microcontroller and GSM modem. The microcontroller processes location data from the GPS receiver and sends it to the user via the GSM modem. It is a low-cost solution for tracking vehicles in case of theft and monitoring drivers.
Under CyberLab Security Division CyberLab Provides Vehicle Tracking System To Track Personal Vehicles, Fleets, Cabs, Trucks, School Buses and Personal Tracking System. For more Info Visit:
www.CyberLabZone.com
ANTI-VEHICLE TRACKING SYSTEM USING SMARTPHONE APPLICATION DrunkenSoul
This document describes the design of a vehicle tracking system using GPS and GSM technologies along with a smartphone application. The system has two main units - a vehicle unit that tracks the vehicle's location using a GPS module and transmits it via GSM/GPRS to a remote server, and a monitoring unit where the user can track the vehicle on a smartphone application. The system aims to provide security for parked vehicles and allow users to locate a stolen vehicle. It was designed using an Arduino microcontroller, GPS and GSM modules, and can find various applications like fleet management and monitoring drivers.
This project is about tracking system that tracks vehicle using gps and gsm/gprs. Also, it displays information for user interface using web and mobile application.Beside that it displays information on lcd as a form of public notice board too.
ACCIDENT DETECTION AND VEHICLE TRACKING USING GPS,GSM AND MEMSKrishna Moparthi
This document describes a vehicle accident detection and tracking system using GPS, GSM, and MEMS sensors. The system detects accidents using a MEMS sensor and then uses GPS to determine the vehicle's location. The location is sent via GSM to emergency services and authorized contacts to provide rapid response. The system aims to quickly locate accident sites and notify help in remote areas with limited communication infrastructure.
Vehicle Tracking System for School Bus by ArduinoIRJET Journal
This document describes a vehicle tracking system using GPS and GPRS technology to track school buses in real-time. The system uses a GPS receiver module to obtain location coordinates and a GPRS module to send the data via TCP/IP to a tracking server. The tracking server stores the location information in a database and makes it available on a map interface for authorized users. The system was implemented using an Arduino microcontroller board connected to a GPS and GPRS shield module. Test results demonstrated the system could successfully track multiple buses on their routes and display their locations on an online map.
Vehicle Tracking System (VTS) enables realtime monitoring and controlling of vehicles using easy software interface.
VTS uses GPS/GLONASS and GSM based services along many software components to make this work.
This document summarizes a student project on a GPS and GSM-based vehicle theft control system. The system uses GPS to track the exact location of a vehicle through latitude and longitude coordinates. The GPS location is sent via GSM modem to a remote location and displayed on Google Earth. The proposed system aims to both monitor and locate a vehicle to ensure security by integrating GPS and GSM technologies.
This document provides information about a vehicle tracking system project developed by students using ARM7 microcontroller, GPS and GSM modules. The system tracks vehicle location using GPS and sends it via GSM to a monitoring station. Key components include a GPS module to get location, GSM modem to send data, ARM7 microcontroller to process data, and MAX232 for logic level conversion during serial communication. The location is also displayed on an LCD. The system was tested and able to retrieve vehicle position from GPS and send it via GSM. Future work includes reducing costs and adding features like speed tracking, fuel monitoring and group tracking.
you can be friend with me on orkut
"mangalforyou@gmail.com" : i belive in sharing the knowledge so please send project reports ,seminar and ppt. to me .
The main objective of our project is to provide an optimum solution to the traffic hazards and the road accidents. According to this project when a vehicle meets with an accident, immediately vibration sensor will detect the signal and sends it to ARM controller. Microcontroller sends the alert message through the GSM MODEM including the location to police control room or a rescue team. So the police can immediately trace the location through the GPS MODEM after receiving the information.
This system builds a new intelligent vehicle checking system based on ARM7 embedded processing technology, processing technology of digital videos, vehicle identification technology, GSM wireless mobile telecommunication technology, GPS positioning technique, implements the checking to vehicles which break the rules or owe the charge. Here we are using car as mobile vehicle checker.
Vehicle tracking system using gps and google mapsanchit bhargava
This project describe how vehicle can be tracked through help of GPS (Global Positioning System) and then using Google Map we can easily put coordinates on the map to find exact locations. with that a software which monitoring every routine of vehicle.
The GPS tracking system has integrated GPS and GPRS capabilities for accurate vehicle tracking along with SMS-based remote monitoring and control via mobile phones. It supports positioning, control functions, and alarms that are accessed via SMS including location tracking, door locking, and alerts for unauthorized vehicle movement, accidents, or break-ins. The system has a rechargeable battery backup and is designed to be rugged, cheap, and reliable meeting automotive industry standards.
ADVANCED BIKE SECURITY SYSTEM USING GSM AND GPSEG TECHNOLOGIES
This document describes the design and development of an advanced bike security system using GSM and GPS technologies. The system is intended to prevent bike theft by tracking the location of a stolen bike and allowing the owner to remotely lock the engine. It consists of a microcontroller interfaced with a GSM module and GPS receiver. When a theft occurs, the GPS module sends the bike's coordinates via SMS to the owner's phone. The owner can then send a message to lock the engine. The system provides bike tracking, theft notification, and remote immobilization in a simple, low-cost package.
This document describes a vehicle tracking and monitoring system that uses GPS, GSM, and a microcontroller to track vehicles in real-time. It consists of three main parts: a vehicle unit with a GPS/GSM modem that collects location data and sends it to a server, fixed base stations that receive and forward data to a data center, and a database and software that stores location information and allows users to view vehicle locations on digital maps via the internet. The system also includes modules to detect driver drowsiness using eye blink sensors, alert drivers to traffic signal violations and speed limits using RF technology, and trigger alerts if vehicle components are removed to prevent theft. The project report presenting this system is organized into five chapters covering introduction
This project describes on how to provide security to vehicles using GPS. A remote tracking server and real time vehicular tracking system were installed in the vehicle for easy tracking of vehicle. Information about the vehicle will transfer to actual tracking server by making use of GSM\GPRS modem on GSM network by sending a SMS or transfer the data to tracking server via GPRS using direct TCP\IP connection. Tracking server also has GSM/GPRS modem which receives vehicle information through GSM network and placed the same information in a database. This vehicle security system, which installed in the car helps to reduce the auto theft.
A GPS tracking system is a common way of getting real-time vehicle location data. GPS technology is often employed in modern car tracking systems, however other forms of autonomous vehicle location technologies can also be used. A GPS tracking system comprised of hardware, open-source software, a web server, and an easy-to-manage user interface via a web server with Google Map was presented. The goal of this project is to develop and build a hand-held wireless GPS tracking device that can be tracked remotely via the Internet. There are three parts to this research. A mobile device with GPS and a wireless Internet connection is the first component. Our hardware project, which contains an LCD, GPS, GSM, Arduino Uno, and sensor linked to service, is the second portion.
Tracking and Recovery of the Vehicle using GPS and GSMIRJET Journal
This document describes a vehicle tracking and recovery system that uses GPS and GSM technologies. The system includes sensors that detect accidents and send alerts. It uses a microcontroller connected to a GPS module and GSM modem to track the vehicle's location and send emergency SMS messages with the coordinates to emergency contacts when an accident is detected. The system aims to reduce accident fatalities by quickly notifying emergency services of accidents and the vehicle's location to facilitate rescue. It provides real-time vehicle tracking and recovery capabilities to increase road safety.
This system tracks vehicles using GPS and locks or unlocks engines via GSM. It continuously monitors a vehicle's location via GPS and can report the status on demand via GSM. If theft is detected, the owner can send an SMS to stop the engine. An authorized person must then enter a password via SMS to restart the engine. This provides secure, reliable, and low-cost vehicle tracking and theft prevention.
IJRET-V1I1P4 - Vehicle Tracking System Using GPS Tracking MethodISAR Publications
A vehicle tracking system is an electronic device installed in a vehicle to enable the owner
or a third party to track the vehicle's location.Multi-tracking system is a real time tracking platform
which uses integration of technologies such as GPS.The device installed in the vehicle
continuously moves and other related information at each position and then transmit to tracking
server, thus storing it in the database. Currently almost of the public having an own vehicle, theft is
happening on parking and sometimes driving insecurity places. The safe of vehicles is extremely
essential for public vehicles. As more devices become GPS enabled, accuracy will increase and the
system's scale and global reach will benefit everyone. Wireless technology promises to be a key
element in any long-term solution. This design will continuously monitor a moving Vehicle and
report the status of the Vehicle on demand
Keywords — GPS Tracking System, Vehicle Tracker , Security System .
GPS GSM Based Vehicle Tracking & Locking SystemIRJET Journal
This document describes a GPS and GSM-based vehicle tracking and locking system created by five authors. The system uses a GPS receiver and SIM908 module to obtain a vehicle's location via satellites and send it via GSM networks. An ATmega16 microcontroller processes the location data, which is then sent as a text message to the vehicle's owner. The owner can lock the vehicle remotely by replying with the text "LOCK". The system provides low-cost vehicle tracking and anti-theft capabilities by allowing owners to monitor a vehicle's location and remotely immobilize it if stolen.
Design and Implementation for Trucks Tracking System Using GPS Based on Seman...ijtsrd
This paper proposed design and implementation of trucks tracking system using GPS based on semantic web for vehicle tracking in real time. In-vehicle unit and a tracking server is used. The information is transmitted to tracking server using GSM/GPRS modem on GSM network by using SMS or using direct TCP/IP connection with tracking server through GPRS. The received SMS contain longitude and latitude that are used to locate the vehicle on the Google maps. Tracking server also has GSM/GPRS modem that receives vehicle location information via GSM network and stores this information in database. It has been explored that most of the GPS based tracking systems are user friendly, cost effective, reliable and can be easily validated through different experiments and simulations which means that tracking system will send notifications periodically to the main station about the current position of the vehicle . Moreover those tracking notifications (GPS) will be stored in the database for future revising or generating required reports.. The tracking system will be better for cars, trucks, trailers, railways, containers and boats that can be traced using GPS vehicle tracking. Yasser Ahmed Nada"Design and Implementation for Trucks Tracking System Using GPS Based on Semantic Web" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-4 , June 2017, URL: http://www.ijtsrd.com/papers/ijtsrd169.pdf http://www.ijtsrd.com/computer-science/artificial-intelligence/169/design-and-implementation-for-trucks-tracking-system-using-gps-based-on-semantic-web/yasser-ahmed-nada
IRJET- GPS Based Vehicle Tracking and Monitoring System - A Solution for Tran...IRJET Journal
This document describes a GPS-based vehicle tracking and monitoring system using Arduino. The system uses a GPS module to obtain location data and a GSM module to send the location to authorized users via SMS. When a registered user texts the system, it replies with the vehicle's current latitude and longitude, which can be viewed on a map. The system is intended to help with vehicle security, tracking salespeople, and monitoring private drivers. It provides location updates every 10 seconds while the vehicle is moving.
iaetsd Vehicle monitoring and security systemIaetsd Iaetsd
The document describes a Vehicle Monitoring and Security System (VMSS) that uses GPS and GSM technologies to track vehicles and ensure passenger security. The system tracks a vehicle's location using a GPS module and sends the location data via GSM to a base station. It also allows passengers to activate an alarm if emergency help is needed. The system supports monitoring vehicles throughout a journey by transmitting passenger and vehicle IDs along with location to the base station as the vehicle picks up and drops off passengers at different stages.
This document proposes a mobile safety system for automobiles that uses Android operating system. The system has two main components: a safety device and an automobile base unit. The safety device allows users to monitor the vehicle's location on a map, check its status, and control functions remotely. It communicates with the base unit in the vehicle using GPRS. The base unit collects data from sensors, determines the vehicle's GPS location, and can execute control commands like activating the brakes or switching off the engine. The document provides details on the design and algorithms of both components and includes examples of Java code implementation. The goal is to create an intelligent, secure and easy-to-use mobile safety system for vehicles using embedded systems and Android
This document proposes a mobile safety system for automobiles that uses Android operating system. The system has two main components: a safety device and an automobile base unit. The safety device allows users to monitor the vehicle's location on a map, check its status, and control functions remotely. It communicates with the base unit in the vehicle using GPRS. The base unit collects data from sensors, determines the vehicle's GPS location, and can execute control commands like activating the brakes or switching off the engine. The document provides details on the design and algorithms of both components and includes examples of Java code implementation. The goal is to create an intelligent, secure and easy-to-use mobile safety system for vehicles using embedded systems and Android
This document proposes a smart IoT device for two-wheelers to prevent theft. The existing systems have drawbacks like constantly using energy to track vehicles. The proposed system uses a vibration sensor and switch to detect movement only in parking mode. It sends alerts to the user's phone with GPS coordinates if movement is detected. It connects to a cloud server through LPWA when in parking mode to detect movement and send alerts. This provides a low-cost, small device to detect theft and track vehicles using less energy.
This document proposes a vehicle tracking and monitoring system using wireless technology like GPS and GSM to provide security, safety, and fleet management. The system tracks the vehicle's location through GPS and sends alerts by SMS. It also detects driver drowsiness using IR sensors and alerts the user, potentially slowing the vehicle. Additionally, it alerts users if they run a red traffic light based on RF sensors. The system aims to reduce costs and manpower needs for vehicle tracking while improving safety.
Design and development of gps-gsm based Tracking system with google map based...IJCSEA Journal
This document describes a GPS-GSM based vehicle tracking system that monitors vehicle location using GPS and sends location data via GSM to a web application. The system hardware includes a GPS module, GSM module, microcontroller and other components. It takes location readings from GPS and sends them via GSM to a server hosting a web application displaying the vehicle's position on a map. The web application allows tracking the vehicle in real-time from any location. The system provides low-cost vehicle monitoring and security against theft.
IRJET- A Survey on Various Location Tracking SystemsIRJET Journal
This document summarizes 10 research papers on various location tracking systems. It begins by defining location tracking systems and their importance in fields like transportation, security, and more. It then summarizes the key technologies used in location tracking like GPS, GSM, RFID, and Google Maps. The majority of the papers discussed Android-based systems that use GPS signals from smartphones to determine and share a target's location in real-time. Several papers focused on using SMS messages or mobile apps to alert contacts if a target strayed from their planned route or moved outside a predefined area. Overall, the document provides an overview of different techniques for real-time person and object tracking using wireless technologies and location-based services.
Vehicle Theft Detection and Tracking Based on GSM and GPSIRJET Journal
This document summarizes a vehicle theft detection and tracking system that uses GPS and GSM technologies. The system continuously monitors the location of a vehicle using GPS and reports it to an authorized user via GSM upon request or if theft is detected. When theft is detected, the user can send an SMS message to stop the vehicle engine. To restart the engine, the authorized user must send a password to the microcontroller via SMS. This provides secure, reliable, and low-cost vehicle tracking and theft prevention.
Review on Tunnel Field Effect Transistors (TFET)IRJET Journal
This document summarizes a vehicle theft detection and tracking system that uses GPS and GSM technologies. The system constantly monitors the location of a vehicle using GPS and reports the status to an authorized user via GSM upon request. If a theft is detected, the user can send an SMS message to the microcontroller to stop the engine. To restart the vehicle, the authorized user must send a password to the microcontroller via SMS. The system provides vehicle tracking, theft prevention and retrieval at a low cost.
A vehicle tracking system is very useful for tracking the movement of a vehicle from any location at any time. An efficient vehicle tracking system is designed and implemented for tracking the movement of any equipped vehicle from any location at any time. The proposed system made good use of popular technology that combines a smartphone with an Arduino UNO. This 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 GSM technology that is one of the most common ways for vehicle tracking. The device is embedded inside a vehicle those positions is to be determined and tracked in real time. An Arduino UNO is used to control the GPS receiver and GSM module. The vehicle tracking system uses the GPS module to get geographic coordinates at regular time interval. The GSM module is used to transmit and update the vehicle location to a database. This paper gives minute by minute update about vehicle location by sending SMS through GSM modem. This SMS contain latitude and longitude of the location of vehicle. Arduino UNO gets the coordinates from GPS modem and then it sends this information to user in text SMS. GSM modem is used to send this information via SMS sent to the owner of the vehicle. Location is displayed on LCD. And then Google map displays location and name of the place on cell phone. Thus, user able to continuously monitor a moving vehicle on demand using smartphone and determine the estimated distance and time for the vehicle to arrive at a given destination. Ni Ni San Hlaing | Ma Naing | San San Naing ""GPS and GSM Based Vehicle Tracking System"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23718.pdf
Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/23718/gps-and-gsm-based-vehicle-tracking-system/ni-ni-san-hlaing
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11.design and implementation of vehicle tracking system using gps
1. Journal of Information Engineering and Applications www.iiste.org
ISSN 2224-5758 (print) ISSN 2224-896X (online)
Vol 1, No.3, 2011
Design and Implementation Of Vehicle Tracking System Using
GPS
Ambade Shruti Dinkar and S.A Shaikh
University Of Pune,India
*Email: Shruti.ambade100@gmail.com
Abstract:
“Surveillance system using phone line for security and tracking ”. Based on the above statement, it is
targeted that this project will serve as good indication of how important it is to curb car theft in the country.
Surveillance is specified to car alarm system and the means of sending the data to the owner of the vehicle
using SMS when the alarm is triggered. Due to the inefficient conventional car security system, the
possibility of the car can be stolen is high. The main reason is that the alarm is limited to the audible
distance. Somehow if there is another way of transmitting the alarm to the car owner ,tracking the vehicle
,knowing the exactly that the car is been stolen at the same time that is not limited to the audible and line
of sight, the system can be upgraded. SMS is a good choice of the communication to replace the
conventional alarm, because it can be done and does not require much cost. Although most of people know
GPS can provide more security for the car but the main reason people does not apply it because the cost.
Advance car security system is too expensive. Cost for the gadget is too high. Beside that, people also must
pay for the service monthly. Tracking systems were first developed for the shipping industry because they
wanted to determine where each vehicle was at any given time. Passive systems were developed in the
beginning to fulfill these requirements. For the applications which require real time location information of
the vehicle, these systems can’t be employed because they save the location information in the internal
storage and location information can only be accessed when vehicle is available. To achieve automatic
Vehicle Location system that can transmit the location information in real time. Active systems are
developed. Real time vehicular tracking system incorporates a hardware device installed in the vehicle (In-
Vehicle Unit) and a remote Tracking server. The information is transmitted to Tracking server using
GSM/GPRS modem on GSM network by using SMS or using direct TCP/IP connection with Tracking
server through GPRS. Tracking server also has GSM/GPRS modem that receives vehicle location
information via GSM network and stores this information in database. This information is available to
authorized users of the system via website over the internet.
Keywords: GPS,GPRS,Sensors
The scope of study which is needed for the completion of this topic involves the following criteria:
1. Architecture of ARM9TDMI knowledge
2 . ARM9 programming
3. The study of modem functions which involves AT commands.
4. The circuitry and devices that is needed to construct the devices and establish the necessary
communication between the devices.
Project Significance
By completing this project,
1. W e hope we can come up with the Vehicle security system to prevent auto theft.
2. It is an affordable system that upgrades the system already installed to the car.
3. Using this system, owner of the vehicle will be notified directly through SMS whenever intrusion occurs.
1|Page
www.iiste.org
2. Journal of Information Engineering and Applications www.iiste.org
ISSN 2224-5758 (print) ISSN 2224-896X (online)
Vol 1, No.3, 2011
4. The SMS message gives immediate alert to the car owner, even if the thief gotten away with the car, so
that the owner can immediately take instant actions to notify the local police department.
After providing a brief description on why this project is created and will hopefully be achieved. We also
hope that this research can come up with a system that can helps to minimize the auto theft that has been
increasing due to the flawed of the current car security system.
Objective:
Exploring GPS based tracking systems
Developing Automatic Vehicle Location system using GPS for positioning information and
GSM/GPRS or information transmission with following features:
Acquisition of vehicle’s location information (latitude longitude) after specified time interval.
Transmission of vehicle’s location and other information (including ignition status, door
open/close status) to the monitoring station/Tracking server after specified interval of time.
Developing a web based software to display all transmitted information to end user along with
displaying location of vehicle on a map.
The objective of the project is to build an additional feature to the present security system that
will warn the owner of the vehicle by sending SMS when there has been an intrusion into the
vehicle.
To provide a solution to avoid car stolen in the lower cost than advance security car system. (GPS)
For the purpose of details of the block diagram refer fig 1.1 and fig 1.2
This vehicle tracking provides,the modules as
1) Anti theft system
2) Position tracking
3) Security such as while locking the cars, confirmation whether the doors are open or closed.
Overall system is partitioned into two major design units.
In-Vehicle unit
Tracking Server/Monitoring Station.
A. In-Vehicle Unit
This is major part of the system and it will be installed into the vehicle. It is responsible for capturing the
following information for the vehicle
Current location of vehicle
Proximity sensors for parking assistance
Vibration Sensors
Ultrasonic Sensors for measuring the distance
In-vehicle unit is also responsible for transmitting this information to Tracking Server located anywhere in
the world.
B. Data Transceiver
When all required information is extracted and processed, it needs to be transmitted to a remote Tracking
Server which will be able to display this information to the end user. For real time tracking of vehicle,
reliable data transmission to remote server is very important. Wireless network is required to transmit
vehicle information to remote server. Existing GSM network is selected to transmit vehicle information to
remote server because of broad coverage of GSM network. It is also cost effective rather than to deploy
own network for transmission of vehicle information. For data transmission over GSM network GSM
modem is required. GSM modem can send and receive data SMS text messages and GPRS data over GSM
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ISSN 2224-5758 (print) ISSN 2224-896X (online)
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network. Location data is transferred to microcontroller through serial interface. After processing of the
data provided by GPS receiver, microcontroller transmits this information to remote location using
GSM/GPRS modem. Microcontroller controls the operation of GSM/GPRS modem through serial interface
using ATcommands.
C. Microcontroller is acting as Central Processing Unit for In-Vehicle unit. All operations of the In-Vehicle
unit are to be controlled by the microcontrollerARM9. ARM9microcontroller needs instructions to operate
the whole system. These instructions are provided to microcontroller by writing the software into
microcontroller’s flash memory. It reads the software instruction by instruction and performs the action as
required by instruction.
Software flow
Microcontroller is acting as Central Processing Unit for In-Vehicle unit. All operations of the In-Vehicle
unit are to be controlled by the microcontroller. Microcontroller needs instructions to operate the whole
system. These instructions are provided to microcontroller by writing the software into microcontroller’s
flash memory. It reads the software instruction by instruction and performs the action as required by
instruction. Complete software is broken down into small modules as shown in Fig 1.3.
Tracking Server
Tracking server maintains all information received from all In-Vehicle units installed in different vehicles
into a central database. This database is accessible from internet to authorized users through a web
interface. Authorized users can track their vehicle and view all previous information stored in database.
Tracking server has a GSM/GPRS modem attached to it that receives SMS from In-Vehicle units and sends
those messages to the server through serial port. Tracking server saves this information into database.
Design of Tracking Server is partitioned into four major parts.
(i) Hardware design for GSM/GPRS Modem (GM900- GPS)
(ii) Communication Software for GM900-GPS
(iii) Database
(iv) Web Interface
A. Web Interface Design
Tracking Server maintains all information in a database. To display this information to users front end
software is required that can display all information to the user.The system is being installed the In-
Vehicle unit in his vehicle and also the administrator of the system who is managing Vehicle Tracking
System. There may be a number of vehicles installed with In-Vehicle units therefore server must be able to
manage and distinguish information sent by all In-Vehicle units. For this purpose information must be
available to server about all vehicles that are installed with In-Vehicle units. Whenever In-Vehicle unit is
installed, information about that vehicle is stored in the database. Web interface must also support this
functionality. Since web interface will be accessible over the internet therefore access must be restricted to
authorized users only. Therefore information about all users of the system must be stored in database.
B. Database Design
Database is designed to store all received vehicle information, information about In-Vehicle units and users
of the system. Information to be stored in the database is
Information about users of the system
Information about vehicles
Information about received from vehicles
C. Design of Communication Software for GM900-GPS
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The software that is to be designed will provide communication interface to the GM900-GPS modem
attached to computer’s serial port. It will control the operations of GM900-GPS. This software must be able
to support following functions
Configuration of GM900-GPS for sending and receiving SMS
Receiving the SMS.
Processing received SMS and saving information into database
Sending SMS to in vehicle unit as required by user
Accepting TCP/IP connections from In-Vehicle units
Exchanging information with In-Vehicle units through internet
GM900-GPS will be configured in such a way that whenever new SMS arrives, GM900-GPS will send the
information about SMS to the serial port. Software will be listening at serial port; it will read the SMS from
GM300-GPS memory and extract the information from SMS. After extracting the information SMS will be
deleted from GM900-GPS by software and information will be written to the database. Design
requirements suggest that following objects are part of the system.
GM900-GPS Modem
Serial Port
Vehicle Info
Database
Main program listens for SMS and handles all communication with In-Vehicle units using SMS. It creates a
separate thread for listening to TCP/IP connections, which receives incoming connections from In-Vehicle
units and creates separate thread for each incoming connection, which allows any number of In-Vehicle
units to connect to server.
Hardware Requriment:
1. GSM MODEM USED
This GSM modem is a highly flexible plug and play /GSM 900 / GSM 1800 / GSM 1900 modem for direct
and easy integration with RS232. Voltage range for the Power supply and audio interface make this device
perfect solution for system integrators and single user. Others features are Voice, Data/Fax, SMS,
GPRS,etc
GSM modem characteristics:
Tri band GSM GPRS modem (EGSM 900/1800 / 1900 MHz )
Designed for GPRS, data, fax, SMS
GPRS multi-slot class 10
GPRS mobile station class B
Fully compliant with GSM Phase 2/2+ specifications
AT Command based
Conclusion
Designing and implementing enables us to establish relevant system design principles that
are useful to other sensor.. It allows complexity to be placed at the appropriate levels of the system to
achieve overall simplicity in system implementation. Our system decomposition allows each of the
subsystems to be reusable by a wide variety of sensor network applications.The network management and
debugging services are useful for deploying other sensor. We demonstrate a working system that not only
monitors sensory data but also tracks and controls a higher tier system to accomplish a cooperative task in
real time. The system assumes very little processing and communication requirements on the sensor. Logs
of Tracking Server and Pointing out current location of vehicle. For vehicle tracking in real time, in-vehicle
unit and a tracking server is used. The information is transmitted to Tracking server using GSM/GPRS
modem on GSM network by using SMS or using direct TCP/IP connection with Tracking server through
GPRS. Tracking server also has GSM/GPRS modem that receives vehicle location information via GSM
network and stores this information in database. This information is available to authorized users of the
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Vol 1, No.3, 2011
system via website over the internet. Currently In-Vehicle unit was implemented with two boards. The
other limitaion is the traffic problem, the program will not able to detect which vehicle to track if it finds
some vehicle in the current guess.If the near by vehicle is same as the one in the model . As in our data
images if we bring maruti-800 near the car than the probability of error increases manifolds. If there is
noise in the edge detected image, we can't really track the vehicle.What is meant by noise is that if some
humans are coming near to the car then the edge detected image will have the edges of that human or
animal or tree, then the program will try to match those edges with the car model. The program might treat
this match as a success but really it will be off the track.Also If distance between the vehicle position in the
two consequtive frames is two much then this tracking program can't detect the vehicle in the second frame
and will try to track it in the susequent frame.
References:
1].GPSImages[online:] http://www.gpsvehiclenavigation.com/GPS/images.p
[2] R. Parsad, M. Ruggieri (2005) Applied Satellite Navigation Using GPS, GALILEO, and Augmentation
Systems. London, ARTECH HOUSE.
[3]. GPRS ( General Packet Radio Service), HSCSD &EDGE[online:]http://www.mobile-phones-
uk.org.uk/gprs.htm
[4]. Telit Wireless Solutions (2008) GM862-GPS Modem
[5]. Microchip (2007) PIC18FXX8 Datasheet
[6]. Transportation District's Automatic Vehicle LocationSystem[online:]
http://www.itsdocs.fhwa.dot.gov//JPODOCS/REPTS_TE/13589.html
[7]. Vehicle Tracking Systems Overview [Online:] http://www.roseindia.net/technology/vehicletracking/
VehicleTrackingSystems.shtml
[8] Real-Time Vehicle Tracking for Driving Assistance Andrea Fossati
CVLab – EPFL 1015 Lausanne – Switzerland andrea.fossati@epfl.ch Patrick Sch¨
onmann
Cinetis SA 1920 Martigny – Switzerland patrick.schoenmann@cinetis.ch
[9]GPS-based Vehicle Tracking PhD MEng BEng MIEEE Assistant Professor of Computer Engineering
Program Lead Division of Sciences and Engineering American University of Kuwait
idamaj@auk.edu.kwHome:
[10]Real Time Web based Vehicle Tracking using GPS, World Academy of Science, Engineering and
Technology 2010 Ph.D. Associate Professor College of Computer and Information Sciences Prince Sultan
UniversityP.WebPage:http://info.psu.edu.sa/psu/cis/rzantout
[11]GPRS ( General Packet Radio Service), HSCSD & EDGE[online:]http://www.mobile-phones-
uk.org.uk/gprs.htmlUSA Today. (2004) Top car-theft areas in each state. [Online]. Available:
http://www.usatoday.com/new “2007 OnStar-
Block Diagram
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6. Journal of Information Engineering and Applications www.iiste.org
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Fig 1.1 Block Diagram of Transmitter
Receiver
Fig 1.2 Block Diagram Of Receiver
Fig 1.3 Breakdown of In-Vehicle software
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