For this time being, vehicletrackingsystem has been nominated as one of the best trackingsystem for the losses of vehicle. Generally GPStracking uses a system of satellites orbiting earth to find the actual location. So by improving this system, it uses GPS and Androidbased smart phones.
Abstract—In today’s era everyone is using mobile phones for communication. At the same time Mobile Providers are also providing the variety of services to users. In attempt to expand on this, we propose a GPSbasedvehicletrackingsystem for an organization to help to find addresses of their vehicles and locate their positions on mobile devices. The organizations are investing money in monitoring and tracking vehicles aiming at improving services and ensuring the safety in cargos transports. The proposed technology allows organizations to track real-time information about their organizational vehicle during travel. Today for local transport most people use Bus as a medium. But due to their irregularity public faces various problems like not reaching on time, bus failure, no proper schedule etc. By this scenario author has created an Android application which provides the exact location of all organizational vehicles.
Users can install this system in their vehicles and use it without any difficulty. It is active for any
mobile phone that can use Google Maps, and send and receive message. The vehicletrackingsystem consist of two parts: hardware and the software. The hardware consists of five units: a Arduino, a GSM modem, a GPS modem, a vibrating Sensor and a servo motor. The first important component of the hardware is the Arduino, which is the brain of this system. All hardware units connect to the Arduino.
GPSBASEDVEHICLETRACKINGSYSTEM CIRCUIT DIAGRAM
For many years there has been two kinds of guides and of course the pdf version that required the consumer to change back and fourth from course to pdf guide. These products user guides worked better because the user got his/her information directly on the program screen. Now not all course guides are created equal. Some Gpsbasedvehicletrackingsystem circuit diagram required the consumer to manually install the program into the appropriate file to ensure that the guide to be employed in this course, further, some guides needed an add-on for any gps positioning tool this is a must for proper movement to a higher goal.
The “VehicleTrackingSystemusingGPS and GSM Technology” project is designed and develop to accommodate the needs of today’s vehicle fleet company to keep track on their fleets. It is a very useful and and versatile device, and in fact it is able to be used by anybody with the need to keep track on their valuable goods and not just by the vehicle fleets company. The desired output from the system will be the data such as position, speed, and time obtained from the GPS receiver and will displayed on the computer screen. This chapter will be covering the general background of this project, its concept, objectives, scope and the problem statement.
GPS & GSM BASED REAL-TIME VEHICLETRACKINGSYSTEM.
The Proposed design is cost-effective, reliable and has the function of accurate tracking. When large object or vehicles were spread out over ground, the owner corporations often found it difficult to keep track of what was happening. They required some type of system to determine where each object was at any given time and for how long it travelled. Also the need of tracking in consumer’s vehicle use to prevent any kind of theft because police can use tracking reports to locate stolen vehicle. GSM and GPSbasedtrackingsystem will provide effective, real time vehicle location, and reporting. A GPS-GSM basedtrackingsystem will inform where your vehicle is and where it has been, how long it has been. The system uses geographic position and time information from the Global Positioning Satellites. The system has an "On-Board Module" which resides in the vehicle to be tracked. The On-Board module consists of GPS receiver, a GSM modem and ARM processor. It can provide tele-monitoring.
II. BLOCK DIAGRAM
Fig1: Web basedvehicletrackingsystem In this paper we are using LPC2148 microcontroller based on a 32/16 bit ARM7TDMI-S CPU with real time emulation and embedded trace support, that combines the microcontroller with embedded high speed flash memory. This is interfaced with the GPS and GPRS modems through the MAX232. GPS modem is used to track the location of the vehicle in real time. It will receive the signals from at least three satellites and based on received signal it calculate the latitude longitude of the receiver. These position values are sent to the microcontroller unit through serial communication.
A GPS-basedvehicletrackingsystem can be a highly effective tool to help lower costs and manage your fleet more efficiently. But with so many different systems to choose from – each with a different array of features, functions, and benefits – how can you determine which will best fit your business?
Tushar Saxena, Deepak Kumar and J.S. Jadon has presented all the satellite navigation systems available or in process today. Every system from GPS to IRNSS has been properly introduced and signaling schemes and modulation schemes are studied. Satellite navigation now days are what every country desire to have to become on great power as most importantly it serves military applications and rescue operations. The next generation of satellite navigation are giving services to the civil users and hence a very good market for commercial point of view .
3 Computer Engineering, RMDSSOE, Pune, India, firstname.lastname@example.org
Abstract: This Project presents an automotive localization systemusingGPS and GSM-SMS services. 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.
In present days all the human beings are well known about his own time because time is precious than gold.All the persons are use a vehicle and mobile phones for his personal use. We are going to use that personal need into to use an emergency warn messaging system. In our real time clock also used to see the exact world clock time. In this wrist watch contains flexi force sensor, MEMS Accelerometer, GPS Transceiver. Sensor to detect the pressure of the human skin.MEMS Accelerometer is used to accelerates the small mechanical movement is convert to electrical signal. Sensor is used to convert the force into a digital signal. IEEE 802.15.4 protocol is used to transmit these kind of data in wireless medium. The controller also used to monitor the process of sensor and MEMS Accelerometer. To find the location usingGPS Transceiver and send a warning message using GSM Technology.
Index Terms—Gate arrays, Global Positioning System, Performance, Vehicletracking, Real-time systems.
I. I NTRODUCTION
After a great evolution, reconfigurable systems fill the flexibility, performance and power dissipation gap between the application specific systems implemented with hardwired Application Specific Integrated Circuits (ASICs) and systems based on standard programmable microprocessors. Reconfigurable systems enable extensive exploitation of computing resources. The reconfiguration of resources in different parallel topologies allows for a good matching with the inherent intrinsic parallelism of an algorithm or a specific operation. The reconfigurable systems are thus very well-suited in the implementation of various data-stream, data-parallel, and other applications.
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 trackingsystem 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.
Android App BasedVehicleTrackingUsingGPS And GSM
Jessica Saini, Mayank Agarwal, Akriti Gupta, Dr. Manjula R
Abstract: Global Positioning System (GPS) is used in numerous applications in today‘s world. A real time vehicletrackingsystemusing the GPS technology is proposed in this paper. The project Android App basedVehicleTrackingUsing GSM AND GPRS mainly focuses in tracking the location of the vehicle on which the device has been installed. It will then send the data in the form of latitude and longitude coordinates through SMS on the user‘s mobile where the coordinates will be plotted in the Android app automatically. Initially, the GPS installed in the device takes input from the satellite and stores it in the microcontroller‘s buffer. In order to track the vehicle, the mobile user has to call on the SIM number that is registered in the GSM module of the device. Once the call is received, the device authenticates the calling number. If authenticated, the location of the vehicle is sent to the registered mobile number in the form of SMS. After sending the message, the GSM is deactivated and the GPS is activated again. The coordinates of the location received in the SMS can be viewed on the android app. The hardware part described in the paper comprises of GPRS, GSM module, LCD to view the coordinates, ATMega Microcontroller MAX 232, Arduino, RS232 and relay.
network. Such a trackingsystem can be used for many applications including security of personal vehicle, public transportation systems, fleet management and others. Today, GPS is widely used in many vehicles. It assists the drivers in navigating to their destinations. It was developed by several U.S government organizations, including the Department of Defense (DOD), the National Aeronautics and Space Administration (NASA), and the Department of Transportation (DOT). GSM is the second- generation digital cellular mobile network which is widely deployed around the world. GSM’s simple and inexpensive Short Message Service (SMS) allows users to send up to 160 characters through a cellular network which is sufficient to send the location coordinates obtained from the GPS module. However, the deployment of GPS/GSM basedsystem is still very much lacking in the market. This is because the commercially available anti-theft vehicular tracking systems are very expensive. Therefore, there is a need to develop an efficient vehicular trackingsystem that is cost effective, user friendly and has the capability to secure the theft of a vehicle by tracking the position of a vehicle at remote places. In the era of mobile internet and smartphones, the smartphones based monitoring and controlling applications attract users due to high penetration of low
Abstract: Currently almost of all people having an own vehicle. Theft is happening on road and sometimes driving insecurity places. The safe of vehicle is very essential for all people vehicles. Vehicletracking and locking system available in vehicle, to track the place and locking position. The place of the vehicle find using Global Positioning system(GPS) and Global system mobile communication(GSM).These systems continuously see a moving vehicle and report the status on demand. When the theft find, the responsible man send SMS to the microcontroller. We are developing secured vehicletracking and control his vehicle through an androidbased phone and vehicle is established via GSM network. Using his/her phone, the owner will be able to locate the track the vehicle in case of theft. The owner having expensive car. So to prevent theft, most of vehicle owners have started using the theft control systems. Using this technique we can track the location very easily.
The client needed fingertip access to the trucks carrying gas tanks, used for delivery of the respiratory gases (Like Liquid O 2 ). Various factors, like effective and proper utilization of the available fleet of trucks, were of paramount importance to the day to day operation of the company. The company wanted to develop a custom GPSbased Fleet/VehicleTrackingSystem in order to enable them to:
The vehicletrackingsystem is an electronic device that tracks the vehicle‟s location. Most of the tracking systems use GPS module to locate the vehicle‟s position .Many systems also combines communication components such as satellite transmitters to communicate the vehicle‟s location to a remote user . Google maps are used to view the vehicle‟s location. The design of the trackingsystem is divided into three parts; basic design, intermediate design and an advance Design. The basic design of the vehicletrackingsystem consists of a GSM module, a GPS module, a MCU (ATMEL), a Relay circuit and a LCD. The user sends SMS and the system responds to the user‟s request by providing the coordinates of a location in accordance to the requirements of mobile phone users through the GPRS network. The intermediate and advance design is an improvement of the basic design. There are five features introduced in the project. SMS codes are specifically assigned to each of these features. For example, if the user sends „555‟ to the trackingsystem. The GSM modem will receive the SMS and transmit to the MCU unit, where the SMS code will be compared against the codes stored in the library. In this project, the code ‟555‟ is assigned to find the location of a vehicle. So, the MCU will get the location from the GPS module and reply back
4. P ROPOSED W ORK
These days most Android smart phone have AGPS chips installed. A GPS means Assisted GPS which takes the help of network towers and WI-FI hot spots to quickly determine the location nearby and help the AndroidGPS enabled Smartphone to get a lock with GPS satellites. Android smart phones with AGPS chips can also have a lock with GPS satellites without the need of data plan or network but require clear sky view and some time to have a lock with GPS satellites. Google Maps is a navigation system with maps which load on having an active data connection and usually locate your device position with the help of network tower or WI-FI hot spots in which location is not that accurate. To have a accurate position in Android there are two settings in My Locations one is to enable Use wireless networks which is bit calculative and other is Use GPS satellites which requires more battery plus clear view of sky. So we can say AGPS chips enabled or equipped Android smart phone have the accurate location position and use GPS satellites to the fullest.