Gsm based advance security and rtealtime vehicle tracking using gps technolgyHardik Patel
This document describes a vehicle tracking and security system that uses GPS and GSM technologies. The system allows vehicle owners to remotely track the location of their vehicle, turn off the vehicle engine, and control additional features like door locks, alarms, lights, and more using a cell phone. The key components are a microcontroller, GPS receiver, GSM modem, keyboard, LCD display, and relays. The microcontroller interfaces with the GPS and GSM modules to send location data via SMS messages and control vehicle features remotely. This provides enhanced security compared to traditional vehicle alarm systems.
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.
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.
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.
Gsm based advance security and rtealtime vehicle tracking using gps technolgy 2Hardik Patel
This document describes a vehicle tracking and security system that uses GPS and GSM technologies. The system allows a vehicle owner to remotely monitor the location of their vehicle, as well as control features like door locks, alarms, and vehicle ignition. The key components of the system include a microcontroller, GPS receiver, GSM modem, power supply, keyboard, LCD display and relays. The microcontroller processes signals from the GPS and GSM modules to determine the vehicle's location and facilitate communication between the owner's phone and vehicle functions. This provides enhanced security compared to traditional systems by allowing real-time tracking and remote operation via cellular networks.
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 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.
13. vechicle tracking system using gsm and gpsHamed Raza
The document describes a vehicle tracking system that uses GPS and GSM technologies. It consists of a microcontroller interfaced with a GPS module and GSM modem to track a vehicle's location using longitude and latitude coordinates from the GPS. The location data is sent via SMS to a remote mobile number. The system operates on low power and provides automated, low-cost vehicle tracking and communication solutions.
Gsm based advance security and rtealtime vehicle tracking using gps technolgyHardik Patel
This document describes a vehicle tracking and security system that uses GPS and GSM technologies. The system allows vehicle owners to remotely track the location of their vehicle, turn off the vehicle engine, and control additional features like door locks, alarms, lights, and more using a cell phone. The key components are a microcontroller, GPS receiver, GSM modem, keyboard, LCD display, and relays. The microcontroller interfaces with the GPS and GSM modules to send location data via SMS messages and control vehicle features remotely. This provides enhanced security compared to traditional vehicle alarm systems.
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.
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.
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.
Gsm based advance security and rtealtime vehicle tracking using gps technolgy 2Hardik Patel
This document describes a vehicle tracking and security system that uses GPS and GSM technologies. The system allows a vehicle owner to remotely monitor the location of their vehicle, as well as control features like door locks, alarms, and vehicle ignition. The key components of the system include a microcontroller, GPS receiver, GSM modem, power supply, keyboard, LCD display and relays. The microcontroller processes signals from the GPS and GSM modules to determine the vehicle's location and facilitate communication between the owner's phone and vehicle functions. This provides enhanced security compared to traditional systems by allowing real-time tracking and remote operation via cellular networks.
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 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.
13. vechicle tracking system using gsm and gpsHamed Raza
The document describes a vehicle tracking system that uses GPS and GSM technologies. It consists of a microcontroller interfaced with a GPS module and GSM modem to track a vehicle's location using longitude and latitude coordinates from the GPS. The location data is sent via SMS to a remote mobile number. The system operates on low power and provides automated, low-cost vehicle tracking and communication solutions.
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.
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.
This is used to track the exact location of a vehicle using GPS tracking systems and give information about the position to concerned person through GSM via SMS.
Accident messaging system using GPS,GSM and MEMSJithin Prasad
This project aims to develop an accident messaging system using a MEMS sensor to detect vibrations during accidents, a GPS module to determine location, and a GSM modem to send messages with location to emergency contacts. It is composed of a PIC microcontroller interfaced with MEMS, GPS, and GSM modules. When an accident is detected by the MEMS sensor, the system will use the GPS module to get location coordinates and send an SMS message with location via the GSM modem to alert contacts and enable emergency response.
Iaetsd smart vehicle tracking system using gsm, gps and rc5Iaetsd Iaetsd
1) The document describes a smart vehicle tracking system that uses GPS, GSM, and RC5 technology to track a vehicle's location and lock the engine if theft is detected.
2) The system includes a microcontroller that is connected to a GPS module to determine the vehicle's coordinates and a GSM module to send SMS messages.
3) If an unauthorized person enters the vehicle when it is locked, the microcontroller detects a theft attempt, locks the vehicle, and sends a message with the vehicle's location to the owner.
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.
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 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.
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.
This project involves building a vehicle tracking and accident alert system using an Arduino board, GPS and GSM modules, and an accelerometer. The accelerometer detects collisions and sends a signal to the GSM module, which then sends an SMS alert with a live location link to predefined phone numbers and emergency services. The alert is generated using the latitude and longitude coordinates from the GPS module. Additionally, the system can be used for live vehicle tracking via software. Key components are the Arduino, GPS, GSM, and accelerometer. The circuit connects these components to the Arduino board to enable GPS tracking and GSM alert functionality.
This document describes a wireless accident tracking system that uses vibration sensors, GPS, and GSM networks to detect vehicle accidents and send alerts. When an accident occurs, the vibration sensor detects it and sends a signal to the microcontroller. The microcontroller then switches on the GPS and GSM modules. The GPS module obtains the location coordinates, which are sent via GSM to emergency services. This system allows for quick response in remote areas to minimize accident severity.
The document discusses interfacing a GPS modem with an Arduino Uno board to display location information on a 2x16 LCD. The GPS modem receives satellite signals, decodes them, and sends data like latitude and longitude in string format using the NMEA standard over serial. The Arduino program filters the NMEA data received and displays the location on the LCD.
IRJET-Automatic Vehicle Accident Detection and Messaging System using GSM and...IRJET Journal
This document describes an automatic vehicle accident detection and messaging system using GPS and GSM technology. The system uses a sensor to detect if a vehicle has been in an accident. If an accident is detected, the sensor notifies a microcontroller which then sends an alert message with the vehicle's location (determined by GPS) to emergency contacts via GSM. This is done to notify authorities and loved ones of the accident quickly in order to save lives. The system provides accident detection and location services to help emergency responders arrive faster when seconds matter most.
This document is a seminar report on an Automatic Vehicle Locator system submitted by Rohit Kumar Patel to partial fulfillment of a Bachelor of Technology degree. The report introduces the motivation for an automatic vehicle locator and provides an overview of the project, which involves a remote object like a vehicle equipped with a GPS receiver and communication devices, and a monitoring station that can receive location data and display it. The report describes the implementation of the system using GPS for location, GSM for communication, and an LCD display for output at the monitoring station. It also covers the GSM receiver and GPS system components used.
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.
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.
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.
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 describes the design and implementation of a low-cost GPS-based vehicle security system using GSM technology. The system aims to avoid car theft at a lower cost than other advanced security systems by informing the owner if intrusion is detected, providing the car's location, and allowing the owner to remotely control the car via SMS messages. It uses a GSM modem to communicate with the owner's phone, a GPS receiver to track the car's location, and sensors to detect intrusion, door access, and crashes. The owner can activate/deactivate the system and receive alerts with location if the car is stolen. They can also stop the engine or brakes remotely to immobilize the vehicle.
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.
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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.
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.
This is used to track the exact location of a vehicle using GPS tracking systems and give information about the position to concerned person through GSM via SMS.
Accident messaging system using GPS,GSM and MEMSJithin Prasad
This project aims to develop an accident messaging system using a MEMS sensor to detect vibrations during accidents, a GPS module to determine location, and a GSM modem to send messages with location to emergency contacts. It is composed of a PIC microcontroller interfaced with MEMS, GPS, and GSM modules. When an accident is detected by the MEMS sensor, the system will use the GPS module to get location coordinates and send an SMS message with location via the GSM modem to alert contacts and enable emergency response.
Iaetsd smart vehicle tracking system using gsm, gps and rc5Iaetsd Iaetsd
1) The document describes a smart vehicle tracking system that uses GPS, GSM, and RC5 technology to track a vehicle's location and lock the engine if theft is detected.
2) The system includes a microcontroller that is connected to a GPS module to determine the vehicle's coordinates and a GSM module to send SMS messages.
3) If an unauthorized person enters the vehicle when it is locked, the microcontroller detects a theft attempt, locks the vehicle, and sends a message with the vehicle's location to the owner.
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.
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 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.
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.
This project involves building a vehicle tracking and accident alert system using an Arduino board, GPS and GSM modules, and an accelerometer. The accelerometer detects collisions and sends a signal to the GSM module, which then sends an SMS alert with a live location link to predefined phone numbers and emergency services. The alert is generated using the latitude and longitude coordinates from the GPS module. Additionally, the system can be used for live vehicle tracking via software. Key components are the Arduino, GPS, GSM, and accelerometer. The circuit connects these components to the Arduino board to enable GPS tracking and GSM alert functionality.
This document describes a wireless accident tracking system that uses vibration sensors, GPS, and GSM networks to detect vehicle accidents and send alerts. When an accident occurs, the vibration sensor detects it and sends a signal to the microcontroller. The microcontroller then switches on the GPS and GSM modules. The GPS module obtains the location coordinates, which are sent via GSM to emergency services. This system allows for quick response in remote areas to minimize accident severity.
The document discusses interfacing a GPS modem with an Arduino Uno board to display location information on a 2x16 LCD. The GPS modem receives satellite signals, decodes them, and sends data like latitude and longitude in string format using the NMEA standard over serial. The Arduino program filters the NMEA data received and displays the location on the LCD.
IRJET-Automatic Vehicle Accident Detection and Messaging System using GSM and...IRJET Journal
This document describes an automatic vehicle accident detection and messaging system using GPS and GSM technology. The system uses a sensor to detect if a vehicle has been in an accident. If an accident is detected, the sensor notifies a microcontroller which then sends an alert message with the vehicle's location (determined by GPS) to emergency contacts via GSM. This is done to notify authorities and loved ones of the accident quickly in order to save lives. The system provides accident detection and location services to help emergency responders arrive faster when seconds matter most.
This document is a seminar report on an Automatic Vehicle Locator system submitted by Rohit Kumar Patel to partial fulfillment of a Bachelor of Technology degree. The report introduces the motivation for an automatic vehicle locator and provides an overview of the project, which involves a remote object like a vehicle equipped with a GPS receiver and communication devices, and a monitoring station that can receive location data and display it. The report describes the implementation of the system using GPS for location, GSM for communication, and an LCD display for output at the monitoring station. It also covers the GSM receiver and GPS system components used.
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.
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.
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.
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 describes the design and implementation of a low-cost GPS-based vehicle security system using GSM technology. The system aims to avoid car theft at a lower cost than other advanced security systems by informing the owner if intrusion is detected, providing the car's location, and allowing the owner to remotely control the car via SMS messages. It uses a GSM modem to communicate with the owner's phone, a GPS receiver to track the car's location, and sensors to detect intrusion, door access, and crashes. The owner can activate/deactivate the system and receive alerts with location if the car is stolen. They can also stop the engine or brakes remotely to immobilize the vehicle.
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.
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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.
4G refers to the next generation of wireless technology that promises higher data rates and expanded multimedia services. It is defined as a fully IP-based integrated system providing 100 Mbps outdoors and 1 Gbps indoors, with quality of service and security, offering customized personal services anywhere through seamless interoperability using technologies like OFDM, MIMO and IPv6. Research is ongoing to build 4G networks through approaches like lower prices, more spectrum coordination, and standardization while addressing issues like security, lack of standards and wireless spam.
This document provides an overview of the key principles and components of a GSM network, including:
- The mobile station consists of the mobile equipment and subscriber identity module.
- The base station subsystem comprises the base transceiver station, which provides radio access, and the base station controller, which manages radio resources.
- The network switching subsystem includes the mobile switching center, home location register, visitor location register, and equipment identity register.
- The network uses several interfaces to connect the different components and allow mobility across the network.
The document discusses driverless car technology, including its history, components, advantages, and challenges. It describes how the car can steer, accelerate, and brake itself using sensors like radar, LIDAR, cameras, and GPS to navigate roads safely without human intervention. While driverless cars could help avoid accidents and ease traffic, challenges include potential hacking, sensor failures, and adapting existing laws and infrastructure.
Project Report On Micro-controller Embedded SystemRkrishna Mishra
The document provides an overview of embedded systems and the 8051 microcontroller architecture. It discusses how embedded systems perform predefined tasks to control devices and can be optimized for size and cost. The 8051 is then introduced as a popular 8-bit microcontroller used in embedded systems. Its features include 4KB program memory, 128B data memory, 32 general purpose registers, timers, and I/O ports. Application areas of the 8051 like energy management, automobiles, and medical devices are outlined. Finally, the document describes the 8051 architecture in detail, including the pinout, programming model, and accumulator register.
Speed checker on highway using 8051 micro controller and IR sensors. Here IR sensor sense the speed of the vehicle and and controller display the speed on Liquid Crystal Display,
3D IC Presented by Tripti Kumari, School of Engineering, CUSATthevijayps
A 3D Integrated Circuit is a chip that has active electronic components stacked on one or more layers that are integrated both vertically and horizontally forming a single circuit.
In the 3-D design architecture, an entire chip is divided into a number of blocks, and each block is placed on a separate layer of Si that are stacked on top of each other.
In a generic 3D IC structure, each die is stacked on top of another and communicated by Through-Silicon Vias (TSVs).
Architectural issues
Traditional shared buses do not scale well – bandwidth saturation
Chip IO is pad limited
Physical issues
On-chip Interconnects become increasingly slower w.r.t. logic
IOs are increasingly expensive
Consequences
Performance losses
Power/Energy cost
Design closure issues or infeasibility
Reduced wire length
Total wire length
Larger circuits produce more improvement
Lower power per transistor
Decreased interconnect delay
Higher transistor packing densities
Smaller chip areas
There are four ways to build a 3D IC:
Monolithic
Wafer-on-Wafer
Die-on-Wafer
Die On Die
At runtime, thermal variations will introduce additional time-varying clock skew, further increasing design uncertainty
2 - Thermal Issues In 3-D ICs
Due to reduction in chip size of a 3D implementation, 3D circuits exhibit a sharp increase in power density
Analysis of Thermal problems in 3D is necessary to evaluate thermal robustness of different 3D technology and design options.
3 - Reliability Issues In 3-D ICs
Electro thermal and Thermo-mechanical effects between various active layers can influence electro-migration and chip performance
Die yield issues may arise due to mismatches between die yields of different layers, which affect net yield of 3D chips.
TSV check on reset
Control use dedicated Vias in order to establish which vias are corrupted.
If 1, 2 and 3 TSVs are OK, the control set the enable signal set_to and set_from: broken path are skipped!
Pads routing shift as show in the figure
Need to define The handling protocol during the TSVs check
3D IC design is a relief to interconnect driven IC design.
Still many manufacturing and technological difficulties
Physical Design needs to consider the multiple layers of Silicon available.
Optimization of both temperature and wirelength
Placement and routing algorithms need to be modified
[1] J. Davis, et al., "Interconnect limits on gigascale integration (GSI) in the 21st century," Proceedings of the IEEE , vol.89, no.3, pp.305-324, Mar 2001.
[2] Banerjee, K.; Souri, S.J.; Kapur, P.; Saraswat, K.C.; , "3-D ICs: a novel chip design for improving deep- submicrometer interconnect performance and systems-on-chip integration," Proceedings of the IEEE , vol.89, no.5, pp.602-633, May 2001.
Final Project, Power Point Presentation[1]guesta27a047
This document discusses three topics related to technology in education: 1) the debate around allowing cell phones in classrooms, with some seeing it as the future of education but others worried it will be a distraction; 2) a case study of an online teaching tool being used in Palm Beach County Schools that allows teachers to access approved digital resources; and 3) a school district initiative to provide every student and teacher a MacBook and install a wireless network, which they felt would empower students for the future.
Li-Fi is a wireless communication technology that uses visible light communication (VLC) to transmit data using LED light bulbs. By switching LED bulbs on and off faster than the human eye can detect, digital data can be encoded and transmitted through the light. Li-Fi provides several advantages over traditional Wi-Fi including much higher speeds, no interference with other wireless devices, and the ability to be used in places where radio signals are restricted. Researchers have achieved speeds over 500 megabytes per second in labs. Li-Fi has the potential to help solve the worldwide shortage of wireless spectrum and enable new applications for wireless connectivity through light.
Li-Fi is the term some have used to label the fast and cheap wireless-communication system, which is the optical version of Wi-Fi. The term was first used in this context by Harald Haas in his TED Global talk on Visible Light Communication(VLC). The technology was demonstrated at the 2012 Consumer Electronics Show in Las Vegas using a pair of Casio smartphones to exchange data using light of varying intensity given off from their screens, detectable at a distance of up to ten meters. For more recent trends in electronics please visit radeshyamece.blogspot.com
This project presents an overhead bridge electromagnetic crane that can automatically measure and place objects on a conveyor belt based on their length and height. The crane uses sensors to detect objects, a microcontroller to process the measurements and control the electromagnet and motors, and can operate either automatically or manually via joystick. It is intended to help automate material handling in industries like shipping, steel mills, and petroleum refineries.
This document provides an overview of Li-Fi technology through a presentation on the topic. It discusses the history of Li-Fi, how it works by transmitting data through LED light, its advantages over Wi-Fi such as higher bandwidth and more secure communication through visible light. Example applications are given such as using traffic lights and street lamps to transmit data. Challenges for Li-Fi are also noted, such as the need for line of sight transmission and potential interference from other light sources.
suppose this security system is fitted in your car . If a thief breaks in and tries to drive away your car then he/she have enter the code for ignition .If the code mismatches then it will send a message to the proprietor's cell "security breach".By this we will come to know that someone is trying to steal your car.
"THAT IS THE IDEA OF THE PROJECT"
This document presents a vehicle theft control system project that was submitted by K. Saikrishna. The project aims to develop a secured vehicle control system using various hardware components like an IR sensor, microcontroller, LCD display and buzzer to detect unauthorized access and alert the owner. The system works by monitoring the vehicle's doors and ignition with sensors connected to a microcontroller that can detect intrusions and activate an alarm.
Art is a creative expression that stimulates the senses or imagination according to Felicity Hampel. Picasso believed that every child is an artist but growing up can stop that creativity. Aristotle defined art as anything requiring a maker and not being able to create itself.
This document presents a project on an embedded-based advanced car parking system developed by students at Bangalore Institute of Technology. The system allows users to reserve parking slots via SMS and guides cars to available slots. It uses sensors to detect vacant spots, a microcontroller to process reservations and a GSM modem for SMS communication. The system aims to reduce traffic and parking issues compared to manual systems through automated reservation and guidance. It has potential applications in malls, harbors and airports to better manage vehicle parking.
This document describes a smart parking system that uses various sensors and technologies to automatically manage vehicle parking. The system uses infrared sensors to detect vehicle presence and control entry and exit gates. A real-time clock tracks parking time and a microcontroller calculates parking fees. Reed switches sense vehicle positions and an LCD displays location and fare information. The system aims to implement systematic parking with one vehicle entering at a time.
This document presents an accident reporting system using a MEM sensor that can detect vehicle accidents and send alerts. The system includes a MEM sensor to detect vibrations during accidents, an LPC2148 microcontroller, a GSM module to send SMS alerts, a GPS module to locate the accident site, and an LCD display. When an accident occurs, the MEM sensor detects it and the microcontroller activates the GSM module to send an SMS with the accident location from the GPS module to emergency services. This allows for faster emergency response times and treatment for victims. The system aims to reduce accident response times and property and life losses.
Real time tracking based on gsm and ir module for running traineSAT Journals
This document describes a system for real-time tracking of trains using GSM and IR modules to send status updates via SMS to passengers. The system uses an IR transmitter on the train to broadcast its location, which is received by IR sensors along the track. The received signals are sent to a main system that uses a GSM module to send SMS updates about the train's status and location to passengers who have reservations. The system aims to reduce passenger wait times and inconvenience by providing automatic updates without needing internet or calling information lines. It uses inexpensive, widely available components like GSM modules, IR sensors, and microcontrollers.
[PPT] SIMPLIFIED SECURED WIRELESS RAILWAY / AIRWAY FOR RESERVATIONRicky Drk
The document proposes a security system for ticket booking on public transportation in India like railways. It involves using a fingerprint scanner during ticket booking to reduce third party bookings and ensure only the traveler booked the ticket. The proposed system uses an ARM7 microcontroller, LCD display, GSM module, fingerprint sensor and keypad. It works by enrolling the fingerprint at booking, sending a confirmation message, and verifying the fingerprint with stored data during travel for authentication. The system aims to increase security and reduce paper usage on railways.
This document describes the design of an accident detection and alert system for motorcycles. The system uses an accelerometer, impact sensor, and tilt meter mounted on the motorcycle to detect if an accident has occurred based on changes in acceleration, impact, and vehicle tilt. If an accident is detected, the system uses an onboard GPS module to determine the location and sends an alert message with the coordinates to emergency contacts via a GSM module. The hardware and software architecture of the prototype system is presented, along with test results demonstrating it can accurately detect accidents and alert emergency services. Suggested improvements include measuring acceleration in additional directions and establishing a dedicated network to improve response times.
This paper proposes an automatic railway crack locator system that uses infrared (IR) and ultrasonic sensors to detect cracks in railway tracks. The system is intended to improve railway safety by automatically detecting defects in tracks and sending the location information to maintenance crews via GSM. Key components of the system include an Arduino microcontroller, IR and ultrasonic sensors to detect cracks and measure distances, a GSM module to communicate crack locations, and a GPS module to provide precise location of cracks.
VEHICLE POSITION AND ACCIDENT PREVENTION USING MULTISENSOR, GSM, GPSDeepakK547422
This document presents two projects related to vehicle safety and security. The first project involves developing a fingerprint and iris scanning system for ATMs to provide more secure online transactions. The second project involves developing a system using sensors, GSM, and GPS technology to detect vehicle position and prevent accidents. It would automatically lock the vehicle if an intoxicated person tries to drive, control handheld device usage, detect overspeeding, and send alerts including location data to emergency services if an accident is detected.
Design of Accident Detection and Alert System for Motor Cycles Dhanith Krishna
This document describes the design of an accident detection and alert system for motorcycles. The system uses an accelerometer, tilt sensor, and impact sensor to detect if an accident has occurred. It then uses GPS technology to determine the location and sends an alert message with the coordinates to emergency services and contacts. The hardware is installed on the motorcycle and includes sensors connected to a microcontroller. The software analyzes the sensor data to identify if an accident occurred and formats an alert message sent via GSM to designated recipients. The prototype was tested on a tricycle and successfully sent alerts when collisions were detected.
This document presents a project on integrating GPS and GSM technologies to enable vehicle tracking. It discusses GPS and GSM systems, how they work together using a tracking device, and their advantages like security and location monitoring. Potential applications are theft prevention and recovery, field service management, food delivery and car rentals. The system allows locating vehicles anywhere by sending commands via SMS.
This document describes a mini project on a GSM based home automation system. The key components of the system include an Arduino Uno, GSM module, relay, LCD display, and mobile phone. The system allows users to remotely switch household appliances on and off using the GSM module and Arduino. It provides a low cost and reliable way to automate and control appliances in the home from a mobile phone.
1) The document describes a system to detect potholes and humps on roads using ultrasonic sensors and an accelerometer. It sends alerts to drivers and stores information in a database to help authorities maintain roads.
2) The system uses a microcontroller, ultrasonic sensor, GPS, GSM module, accelerometer, LCD display, and buzzer. The ultrasonic sensor detects distances to humps while the accelerometer detects potholes. GPS records locations and GSM sends alerts.
3) The objectives are to protect users from accidents, avoid damage, store all information, and provide timely alerts to recover roads quickly. This helps reduce accidents from 70% related to potholes currently.
This document describes a wireless communication system to remotely monitor and control equipment using a GSM network. It consists of a transmitter and receiver connected by a GSM modem. The transmitter is a mobile phone that sends SMS codes to control relays and devices. The receiver includes a microcontroller, GSM modem, relays, and devices. It receives SMS codes and uses the microcontroller to operate the relays and control devices like fans and lamps. The system allows remote monitoring and control of devices from anywhere through simple SMS commands. It has applications in home, office, and industrial automation.
Remote Power Distribution System using GSMIRJET Journal
This document describes a proposed remote power distribution system using GSM that aims to replace the manual process of power cuts or load shedding from a centralized location. The system would consist of GSM modems at both a control station and substations that distribute power to different areas. The control station modem could send SMS messages over the GSM network to turn branches of a substation's power lines on or off remotely. An LCD display would show the on/off status of each substation channel. The system is designed to reduce human errors involved in manual power switching and allow remote control of power distribution from a centralized location using GSM communication.
The document describes a smart LED display board project submitted for a degree. It uses a GSM module to receive SMS messages which are then displayed on the LED board. The system includes an AT89S51 microcontroller, GSM module, LED display, power supply, and software. Users can send display messages via SMS from any location which are received by the GSM module and shown in scrolling text on the LED board. The design aims to provide a flexible SMS-driven display system for places like colleges, universities, and other public areas.
This document describes a proposed system for automatically detecting faults on railway tracks using wireless network systems. The proposed system uses ultrasonic sensors to monitor the tracks for cracks and obstacles. When a fault is detected, the sensor information is transmitted wirelessly through modules to authorities. This allows for easy, real-time surveying of tracks with less delay compared to existing systems. The goal is to avoid accidents and safeguard passengers by quickly detecting any track issues or problems.
advanced raiway security system based on zigbee communication for track fault SHIVA PRASAD
This document describes a proposed crack detection robot system for railway tracks. It would use sensors to detect cracks in the rails and send alert messages using Zigbee communication. The system aims to address safety issues caused by undetected rail cracks. It proposes using a microcontroller and sensors to detect cracks, and Zigbee to wirelessly transmit warnings to nearby stations. The document discusses related work on visual, vibration, and gauge inspection methods, and outlines the components and advantages of the proposed robotic crack detection system.
Women safety device with gps tracking and alertsPraween Lakra
This document describes a women's safety device project that uses GPS tracking and alerts. The system uses an Arduino Uno microcontroller connected to a GPS module, GSM module, fingerprint scanner and other components. It allows a woman in distress to activate alerts by fingerprint or button press, which then sends her location via SMS to predefined numbers. The system provides dual security by tracking a woman's location even if she cannot press the panic button. It is designed for safety but has limitations like size, battery dependence and need for SIM card. Potential applications include child tracking and vehicle integration for increased safety.
This document discusses the components and applications of a SCADA system for electrical power distribution. It describes the key elements of a SCADA system including remote terminal units (RTUs), communication infrastructure, and a supervisory computer system. The document outlines how SCADA is used to monitor parameters like voltage and current in substations and transmit this data to control centers to maintain grid stability and reliability. SCADA systems are critical for functions like load flow analysis, outage management, and energy auditing in electrical distribution networks.
automatic railway gate control system using arduinoantivirusspam
The objective of this project is to manage the control system of railway gate using the arduino. When train arrives at the sensing point alarm is triggered at the railway crossing point so that the people get intimation that gate is going to be closed. Then the control system activates and closes the gate on either side of the track once the train crosses the other end control system automatically lifts the gate.
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The smart irrigation system represents an innovative approach to optimize water usage in agricultural and landscaping practices. The integration of cutting-edge technologies, including sensors, actuators, and data analysis, empowers this system to provide accurate monitoring and control of irrigation processes by leveraging real-time environmental conditions. The main objective of a smart irrigation system is to optimize water efficiency, minimize expenses, and foster the adoption of sustainable water management methods. This paper conducts a systematic risk assessment by exploring the key components/assets and their functionalities in the smart irrigation system. The crucial role of sensors in gathering data on soil moisture, weather patterns, and plant well-being is emphasized in this system. These sensors enable intelligent decision-making in irrigation scheduling and water distribution, leading to enhanced water efficiency and sustainable water management practices. Actuators enable automated control of irrigation devices, ensuring precise and targeted water delivery to plants. Additionally, the paper addresses the potential threat and vulnerabilities associated with smart irrigation systems. It discusses limitations of the system, such as power constraints and computational capabilities, and calculates the potential security risks. The paper suggests possible risk treatment methods for effective secure system operation. In conclusion, the paper emphasizes the significant benefits of implementing smart irrigation systems, including improved water conservation, increased crop yield, and reduced environmental impact. Additionally, based on the security analysis conducted, the paper recommends the implementation of countermeasures and security approaches to address vulnerabilities and ensure the integrity and reliability of the system. By incorporating these measures, smart irrigation technology can revolutionize water management practices in agriculture, promoting sustainability, resource efficiency, and safeguarding against potential security threats.
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Gsm based advance security and rtealtime vehicle tracking using gps technolgy 3
1. GOVERNMENT ENGINEERING COLLEGE , PATAN
At: Katpur , Dist & Ta:Patan
Pin : 384265
DEPARTMENT
OF
ELECTRONIC AND COMMUNICATION ENGINEERING
2. A PROJECT PRESENTATION
GSM BASED ADVANCE SECURITY AND
REALTIME VEHICLE TRACKING USING
GPS TECHNOLOGY
Prepared By:
PATEL HARDIK J (090220111004)
THAKKAR NILESH H (090220111013)
PATEL DARSHAN J (090220111048)
Guided By:
Prof. S L BHARVAD
ON
3. CONTENT
• Abstract
• Objective
• Function
• Block Diagram
• Working Diagram
• Circuit Diagram
• Components
• Features
• Application
• Conclusion
4. ABSTRACT
• In present life we all people can’t live without transportation service for
proper and perfect communication.
• We also know that vehicle (car,truck,etc..) play an important role in
today’s transportation service.
• The present vehicle(car,truck,etc..) alarm system are still of no match to
the well-equiped thieves.
• So,we are going to introduces and describes the project offering higher
level of vehicle (car,truck,etc..) security system.
5. OBJECTIVE
•This project is capable of providing an effective two way communication
between the alarm system and the vehicle(car,truck,etc..) owner.
• Additionally the vehicle(car,truck,etc..) owner can remotely control many
of the car’s feature anytime and anywhere via cellphone using GSM
technology.
• Based on GPS technology this system has also potential to provide
realtime vehicle (car,truck,etc..) tracking , which we can include as a
enhancement of this project over conventional security system of vehicle
(car,truck,etc..).
11. Microcontroller
AT89S52
•The microcontroller is the heart of this device.
•Microcontroller is a small computer on a single integrated circuit
containing a processor core, data memory and programmable
input/output peripherals.
• It is the interface between the GSM module and the GPS receiver.
• Microcontroller is programmed in such a way that it stimulates the GSM
modem in message forwarding when a request is send by the user.
12. • Microcontrollers are much smaller and simplified so that they
can include all the functions required on a single chip.
• Having the microcontroller is of great use, as it has low design
cost and add intelligence to the system.
14. GSM Modem
•A GSM modem is a specialized type
of modem which accepts a SIM card,
and operates over a subscription to a
mobile operator, just like a mobile
phone.
•GSM (Global System for Mobile) uses a process called circuit switching.
•This method of communication allows a path to be established between two
devices.
• Once the two devices are connected, a constant stream of digital data is
relayed.
• so by sending the command in the form of SMS we can control previously
mentioned features of vehicle remotely.
15. GPS Receiver
•The Global Positioning System (GPS) is
the only fully functional Global
Navigation System.
•The GPS uses a constellation of
Medium Earth Orbit satellites that
transmit precise microwave signals that enable GPS receivers to
determine their location, speed, direction, and time.
•A GPS receiver receives the signals from at least three satellites to
calculate distance and uses a triangulation technique to compute its two
dimension (latitude and longitude) position.
18. Relay
•Relays are electrical switches that open or close
another circuit under certain conditions.
•Electrical relays control the flow of electricity to various components of
larger circuits.
•Relays are generally used to protect circuit from damage due to high
electrical ratings.
•In this project relay is used to show the demonstration of working of real
time application device Solenoid Valve
19. Buzzer
•Buzzers are simply a musical tone oscillator
designed for audible indication of some alerts.
•Buzzers are generally electricaly operated device
for indication.
•Buzzer used in this project is simple pin terminal type buzzer for alert
operation.
•In this project Buzzer is used for audio indication of operation performed
by device according to user command.
20. FEATURES
•Remote Communication Using GSM Modem
• Sends Location In The Form Of Latitude & Longitude
• Reliable For Remote Tracking
• Advance security in form of stolen alert and vehicle turn off
22. REFERENCES
Guides :
INTERNAL: prof. S L BHARVAD
BOOK :
8051 microcontroller & embedded
systems-By Mazidi Muhammad
WEB :
www.ijecse.org
www.mycollegeproject.com