The document proposes a fingerprint recognition system to ignite motorcycles for enhanced security. It discusses existing works that use biometrics like fingerprint scanning to replace conventional keys. The proposed system stores fingerprints of authorized users in a fingerprint module. When a person scans their fingerprint, the system matches it to the stored fingerprints to either ignite the motorcycle or trigger an alarm. If a match is found, the microcontroller will ignite the bike via the ignition system. Otherwise, the alarm will turn on. The system aims to only allow registered users to start the motorcycle, providing better security than traditional locks.
The document discusses fingerprint-based authentication for embedded systems security. It begins with an introduction describing how embedded systems are increasingly networked and vulnerable. It then discusses fingerprint identification and authentication techniques. The rest of the document describes the hardware and software requirements for a fingerprint authentication system, including a microcontroller, fingerprint module, LCD, power supply, and other components. Block diagrams and working principles are provided to explain how the system functions to authenticate users via fingerprint and control access.
Report of Advance car security system major projectAmi Goswami
The Arduino Mega 2560 is a microcontroller board based on the ATmega2560. It has 54 digital input/output pins, 16 analog inputs, 4 UARTs, a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button. It contains everything needed to support the microcontroller. It can be powered via the USB port or an external power supply. It has 256KB of flash memory for storing code, 8KB of SRAM, and 4KB of EEPROM. The board operates at 5V and each I/O pin can provide or receive 20mA of current. It supports SPI, TWI, PWM, analog input, and serial communication.
To protect user’s password from theft by using rfid and mems technologyeSAT Journals
Abstract In this paper, MEMS (Micro Electro Mechanical System) is implemented using Embedded controller PIC 16F877A. MEMS can be used to sense motion. Microcontroller detect any motion while they are occurs or not. The user can assign a password by fixed set of motions as decided by them. In that there are three techniques uses for user’s authentication. Firstly Microcontroller senses any motion which is matches with exist motion password, then first phase will unlock and it goes into next phase is human interface method of keypad that is traditional where the user enters the predefined password, if it is matched with the predefined password then second phase will be unlock. Then user will directly enter into the final phase which is a RFID card that is read by a RFID reader module connected to the Micro controller if the card is matched the final phase get completed and the desired operation will start. A buzzer is used for an indication of wrong password. This buzzer is ON until right password matches with existing password. Key Words: -Codebooks, Key Logger, PIC Microcontroller, Secret Little Functions, RFID, MEMS.
IRJET- Biometric based Bank Locker SystemIRJET Journal
1. The document describes a biometric bank locker system that uses fingerprint recognition and an Aadhaar card database to authenticate users and securely access personal belongings.
2. The system uses an Arduino microcontroller connected to a fingerprint sensor and servo motor to unlock a locker when a registered fingerprint is detected. It also scans Aadhaar cards to maintain a database of user information and access logs.
3. An Android mobile app and webpage allow users and bank personnel to interface with the system, enroll and delete fingerprints, view access logs, and understand how the biometric locker works for enhanced security compared to traditional lockers.
FINGERPRINT BASED LOCKER WITH IMAGE CAPTUREMichael George
As we are moving in a World of advancement, so the security is the major concern in order to keep data isolate from the unauthorised users to access. In today’s World, we need high degree security system for the protection of our document, important data, as well as memory and jewellery. This review paper presents a secure fingerprint locker which is feasible. This system is proved successful on all norms of security of lockers. There are other methods of verifying authentication through password, RFID but this method is most efficient and reliable. To provide perfect security to the lockers and to make the work easier, this project is taking help of two different technologies, i.e. Embedded System and Biometrics. Biometrics is basically the measurement and use of unique characteristics of living beings to make them distinguish from one another. And this is more reliable then passwords and tokens which can be lost or stolen by the humans. In this paper we are providing the work done on this technique.
This document describes a vehicle anti-theft system based on an embedded platform. The system uses multiple layers of protection, including fingerprint recognition to open doors, vibration sensors on windows, a mechanical key and keypad to start the vehicle, and tire pressure and GPS sensors to track a stolen vehicle. The different sensors are controlled by an ARM 7 microcontroller. The system was tested using a test setup that mimicked vehicle components like doors and immobilizers using motors. Fingerprint data was received from a Matlab GUI. Experimental results proved the functionality of the multi-layered anti-theft system.
Intellectual Bank Locker Security SystemIJERA Editor
In today's modern world, security plays an important role. Every person has precious accessories like gold,
documents or cash. The main goal of this project is to design and implement a bank locker security system
based on fingerprint and GSM technology. It reduces wastage of time for both banker as well as customer and
provides advanced security. In this system, only authentic persons can recover money or accessories from bank
locker. In this system the user’s name, fingerprint and mobile number are enrolled. If the fingerprint matches,
then four digit code will be sent to the authorized person’s mobile through GSM modem and the locker door
will be opened then, otherwise it will be in locked position and gives an alarm when any mismatch occurs. The
sensors will be active during night times to provide security against thefts.
The document discusses fingerprint-based authentication for embedded systems security. It begins with an introduction describing how embedded systems are increasingly networked and vulnerable. It then discusses fingerprint identification and authentication techniques. The rest of the document describes the hardware and software requirements for a fingerprint authentication system, including a microcontroller, fingerprint module, LCD, power supply, and other components. Block diagrams and working principles are provided to explain how the system functions to authenticate users via fingerprint and control access.
Report of Advance car security system major projectAmi Goswami
The Arduino Mega 2560 is a microcontroller board based on the ATmega2560. It has 54 digital input/output pins, 16 analog inputs, 4 UARTs, a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button. It contains everything needed to support the microcontroller. It can be powered via the USB port or an external power supply. It has 256KB of flash memory for storing code, 8KB of SRAM, and 4KB of EEPROM. The board operates at 5V and each I/O pin can provide or receive 20mA of current. It supports SPI, TWI, PWM, analog input, and serial communication.
To protect user’s password from theft by using rfid and mems technologyeSAT Journals
Abstract In this paper, MEMS (Micro Electro Mechanical System) is implemented using Embedded controller PIC 16F877A. MEMS can be used to sense motion. Microcontroller detect any motion while they are occurs or not. The user can assign a password by fixed set of motions as decided by them. In that there are three techniques uses for user’s authentication. Firstly Microcontroller senses any motion which is matches with exist motion password, then first phase will unlock and it goes into next phase is human interface method of keypad that is traditional where the user enters the predefined password, if it is matched with the predefined password then second phase will be unlock. Then user will directly enter into the final phase which is a RFID card that is read by a RFID reader module connected to the Micro controller if the card is matched the final phase get completed and the desired operation will start. A buzzer is used for an indication of wrong password. This buzzer is ON until right password matches with existing password. Key Words: -Codebooks, Key Logger, PIC Microcontroller, Secret Little Functions, RFID, MEMS.
IRJET- Biometric based Bank Locker SystemIRJET Journal
1. The document describes a biometric bank locker system that uses fingerprint recognition and an Aadhaar card database to authenticate users and securely access personal belongings.
2. The system uses an Arduino microcontroller connected to a fingerprint sensor and servo motor to unlock a locker when a registered fingerprint is detected. It also scans Aadhaar cards to maintain a database of user information and access logs.
3. An Android mobile app and webpage allow users and bank personnel to interface with the system, enroll and delete fingerprints, view access logs, and understand how the biometric locker works for enhanced security compared to traditional lockers.
FINGERPRINT BASED LOCKER WITH IMAGE CAPTUREMichael George
As we are moving in a World of advancement, so the security is the major concern in order to keep data isolate from the unauthorised users to access. In today’s World, we need high degree security system for the protection of our document, important data, as well as memory and jewellery. This review paper presents a secure fingerprint locker which is feasible. This system is proved successful on all norms of security of lockers. There are other methods of verifying authentication through password, RFID but this method is most efficient and reliable. To provide perfect security to the lockers and to make the work easier, this project is taking help of two different technologies, i.e. Embedded System and Biometrics. Biometrics is basically the measurement and use of unique characteristics of living beings to make them distinguish from one another. And this is more reliable then passwords and tokens which can be lost or stolen by the humans. In this paper we are providing the work done on this technique.
This document describes a vehicle anti-theft system based on an embedded platform. The system uses multiple layers of protection, including fingerprint recognition to open doors, vibration sensors on windows, a mechanical key and keypad to start the vehicle, and tire pressure and GPS sensors to track a stolen vehicle. The different sensors are controlled by an ARM 7 microcontroller. The system was tested using a test setup that mimicked vehicle components like doors and immobilizers using motors. Fingerprint data was received from a Matlab GUI. Experimental results proved the functionality of the multi-layered anti-theft system.
Intellectual Bank Locker Security SystemIJERA Editor
In today's modern world, security plays an important role. Every person has precious accessories like gold,
documents or cash. The main goal of this project is to design and implement a bank locker security system
based on fingerprint and GSM technology. It reduces wastage of time for both banker as well as customer and
provides advanced security. In this system, only authentic persons can recover money or accessories from bank
locker. In this system the user’s name, fingerprint and mobile number are enrolled. If the fingerprint matches,
then four digit code will be sent to the authorized person’s mobile through GSM modem and the locker door
will be opened then, otherwise it will be in locked position and gives an alarm when any mismatch occurs. The
sensors will be active during night times to provide security against thefts.
IRJET- Design and Implementation of Fingerprint based Bank Locker System usin...IRJET Journal
This document describes the design and implementation of a fingerprint-based bank locker system using an ARM7 microcontroller and GSM technology. The system uses a fingerprint sensor module to store fingerprints of authorized users. When a fingerprint is detected that matches an authorized user, an ARM7 microcontroller connected to a GSM module will send an authentication SMS to the user. If authenticated, the microcontroller will activate a motor to automatically open the bank locker door, providing secure access. The system aims to provide stronger security compared to traditional bank lockers that use keys, as fingerprints are more reliable identifiers than keys that can be lost or stolen.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
Authenticated Access Control for Vehicle Ignition System by Smart Card and Fi...IOSR Journals
This document describes a system for vehicle ignition control using smart card authentication and fingerprint recognition. The system consists of a smart card reader, fingerprint scanner, alcohol sensor, seatbelt detector, fuel level sensor and speedometer connected to a microcontroller. The smart card stores the user's fingerprint. To start the vehicle, the user inserts their smart card and provides their fingerprint. If it matches the stored print, the system then checks for alcohol using a sensor and ensures the seatbelt is fastened before allowing ignition. It also monitors fuel level and speed, providing alerts if needed. The goal is to prevent unauthorized or unsafe driving through multi-factor authentication before starting the vehicle.
IRJET- Authenticated Locker System using Watchword ProtectionIRJET Journal
This document describes an authenticated locker system using password protection that is designed using an Arduino kit. The system uses a password entered on a 4x4 keypad to control a servo motor that opens and closes a door. If the correct password is entered, the door will open for 30 seconds before closing. If an incorrect password is entered multiple times, a buzzer will sound. The system aims to provide effective security for applications like bank lockers or secure doors at an affordable cost. It analyzes the entered password and stored password in the Arduino's memory to determine if access should be granted.
IRJET - Driver Drowsiness and Alcohol Detection with Car Tracking System usin...IRJET Journal
This document proposes a system using IoT to prevent accidents from drunk or drowsy driving. The system includes sensors to detect alcohol concentration using an MQ-3 sensor, eye blink rate using image processing on a Raspberry Pi to detect drowsiness. It also includes a GPS sensor to track the vehicle's coordinates. If the driver is detected as drunk or drowsy, protective measures are taken like turning off the ignition and triggering an alarm. The location and alerts would also be sent to family members. The overall aim is to prevent accidents from drunk or sleepy driving and provide car tracking for safety or theft situations.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
This document summarizes a research paper that proposes a next generation engine immobilizer system using face recognition and remote access capabilities. The current RFID-based immobilizers can be hacked, allowing increased vehicle theft. The proposed system replaces RFID with face recognition for driver authentication using near-infrared light and image processing in LabVIEW. It also allows the owner to remotely stop the vehicle if stolen by sending an OTP to the owner's email. Additional safety features like ensuring door closure before ignition and a hidden camera activated during theft are included. The system aims to enhance security while maintaining usability through features like keyless entry.
Advanced Security System for Bank Lockers using Biometric and GSMIRJET Journal
This document proposes an advanced security system for bank lockers using biometric authentication and GSM technology. The system aims to provide more secure access to bank lockers than traditional key-based systems. It works by enrolling users through fingerprint scanning and storing their fingerprint data and mobile number in a database. When a user wants to open their locker, the system verifies their identity by matching their fingerprint and sends a one-time password via SMS to their registered mobile number. The user then enters this password to unlock the locker, providing two-factor authentication through biometrics and mobile verification. The system is designed to address security issues with lost or duplicated keys and keep pace with digital authentication methods.
An Automatic Car Engine Startup and Brake Oil Monitoring Using SensorsIJRES Journal
The primary concern of “An Automatic Car Engine Startup and Brake Oil Monitoring Using Sensors” is to monitor the level of brake oil and to monitor the exact amount of engine fuel in digital form. It also shows the importance of unimodal biometric in order to identify or to verify a person that wants to start the engine of the car. A fingerprint sensor is placed on the car’s door and one in the dashboard to start the engine. If the person’s fingerprint matches then he can get into the car and start the engine.
IRJET- Smart Helmet for Accident PreventionIRJET Journal
This document describes a smart helmet system that prevents motorcycle accidents by checking if the rider is wearing a helmet and is not under the influence of alcohol before starting the engine. The system includes an alcohol sensor and helmet switch fitted in the helmet that send data to a microcontroller. If either condition is not met, the microcontroller will not allow the engine to start. It also detects accidents using an accelerometer and sends location data via GSM to emergency contacts to help save lives. The system aims to reduce head injuries from no-helmet accidents and drunk driving accidents in developing nations like India where motorcycles are widely used.
DEVELOPMENT OF AUTOMATIC GEOFENCING AND ACCIDENTAL MONITORING SYSTEM BASED ON...IJCSEA Journal
The main objective of this project is to design and develop an embedded system for vehicle to detect the road accident for immediate medical help as well as for security purpose in theft prevention using single shock sensor. In case of accidental mode the system should inform automatically via text message to medical rescue team indicating the position of vehicle location. When there is no car driver, vehicle should automatically go into security mode. When a person tries to steal the vehicle, this system should send an alert message to the owner. The system Geo fencing and accidental monitoring system based on AT89S52 as a central core. This includes various technologies: a shock sensor, Liquid crystal display (LCD), Dual relay and wireless communication. This system also includes Geo fencing technology. Geo fencing enables the remote monitoring of predefined set of boundaries and automatic detect when vehicle exit from these areas.
IRJET- Tara - An Accident and Alcohol Detecting Bluetooth Enabled Smart H...IRJET Journal
This document describes a smart helmet called "Tara" that detects accidents, alcohol levels, and whether the helmet is being worn. It uses sensors like an alcohol sensor, breath analyzer, MEMS sensor, touch sensor, and rain sensor connected to a microcontroller. The MEMS sensor detects accidents by measuring tilts. The breath analyzer and alcohol sensor check for a human and alcohol levels in their breath. A touch sensor confirms the helmet is worn. It connects via Bluetooth to send emergency alerts with location data if an accident or high alcohol is detected. The system aims to reduce accidents by promoting safer riding behaviors like wearing a helmet and preventing drunk driving.
This document discusses a security system project that uses fingerprint and keypad authentication to allow authorized individuals access. The system is programmed using an embedded microcontroller and C language. When a person places their finger on the reader, the system will check if they are authorized and prompt for a pin entry via keypad or mobile. If authorized, a message is sent to their mobile via GSM technology. The system aims to provide low-cost, automated security access for applications like ATMs.
A low-cost and simple distributed sensors model that is particularly suitable for measuring eye blink of the driver, accident and hand position on a steering wheel. These sensors can be used in automotive active safety systems that aim at detecting driver’s fatigue, a major issue to prevent road accidents. The key point of this approach is to design a prototype of sensor units, so that it can serve as platform for integrating different kinds of sensors into the steering wheel. Since the sensors are attached to the steering wheel, therefore they can’t be detached by the driver. It will also detect dangerous stylish driving which may lead to fatal accidents. The major drawback is that the eye blink sensors frame worn by the driver can be removed causing the sensor non-operational. The outcome is that the vibrator attached to eye blink sensor’s frame vibrates if the driver shuts his eyes for approximately 3 seconds and also the LCD displays the respective warning message. The wheel is slowed or stopped depending on the condition. This is accompanied by the vehicle’s owner being notified through the GSM module, so the owner can retrieve the driver’s location, photograph and a list of nearby police stations through an android mobile application. Therefore, driver can be alerted during drowsiness and the owner can be notified simultaneously.
IRJET - Smart License Generation in RTOIRJET Journal
The document describes a proposed system to automate the process of driving license generation and testing in the Regional Transport Office (RTO) using sensors and wireless communication. The system would replace human supervision of the driving test with sensors in the vehicle and test lane to monitor the candidate's driving skills. Infrared sensors in the vehicle and lane would track the candidate's movements and send the data via a wireless sensor network to be uploaded to a webpage using Internet of Things technology. This would allow the entire testing process to be evaluated without additional human supervision and help reduce manual errors and interference.
The document proposes a "smart human two wheeler safety system" that uses sensors in a helmet like an alcohol sensor, IR sensor, and push buttons to determine if the rider is wearing the helmet properly and is unimpaired by alcohol. The helmet system communicates wirelessly via RF transmitter and receiver with the bike to allow it to start only if the helmet sensors detect everything is safe. The goal is to reduce accidents and deaths by ensuring helmet usage and sobriety before allowing a bike to start.
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
"Two wheeler vehicle security system (TWVSS)" IJESET Vol 6 Issue 3, Dec 2013Prashantkumar R
This Research Work was carried out by the Authors as a part of Final Year B.E. Project.
Published: International Journal of Engineering Sciences & Emerging Technologies, Dec. 2013. ISSN: 2231 – 6604 Volume 6, Issue 3, pp: 324-334
http://ijeset.com/Volume6Issue3.html
Award: MOST INNOVATIVE PROJECT at Project EXPO - 2013
Organized by GRID INDIA and TJIT Bengaluru.
This document summarizes a research paper that designed and implemented a dual tone multi-frequency (DTMF) based GSM-controlled car security system. The system uses a DTMF decoder and GSM module to allow a car to be remotely controlled and secured from a mobile phone. It works by sending DTMF tones from the phone through calls to the GSM module in the car. The decoder interprets the tones and a microcontroller executes commands to disable the ignition or control other devices. The system was created to improve car security and accessibility through remote monitoring and control with DTMF and GSM technology.
This document provides a project definition for a fingerprint-based security system. The system will use an AT89C51 microcontroller to analyze fingerprint scans and activate a motor if an authorized fingerprint is detected. Fingerprint data will be stored on the microcontroller even without power. The system block diagram outlines the fingerprint sensor, oscillatory circuit, microcontroller, relay, motor driver and motor components. Software will include a device driver for fingerprint detection and motor control. Serial communication and LCD interfacing is also specified.
IRJET- Design and Implementation of Fingerprint based Bank Locker System usin...IRJET Journal
This document describes the design and implementation of a fingerprint-based bank locker system using an ARM7 microcontroller and GSM technology. The system uses a fingerprint sensor module to store fingerprints of authorized users. When a fingerprint is detected that matches an authorized user, an ARM7 microcontroller connected to a GSM module will send an authentication SMS to the user. If authenticated, the microcontroller will activate a motor to automatically open the bank locker door, providing secure access. The system aims to provide stronger security compared to traditional bank lockers that use keys, as fingerprints are more reliable identifiers than keys that can be lost or stolen.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
Authenticated Access Control for Vehicle Ignition System by Smart Card and Fi...IOSR Journals
This document describes a system for vehicle ignition control using smart card authentication and fingerprint recognition. The system consists of a smart card reader, fingerprint scanner, alcohol sensor, seatbelt detector, fuel level sensor and speedometer connected to a microcontroller. The smart card stores the user's fingerprint. To start the vehicle, the user inserts their smart card and provides their fingerprint. If it matches the stored print, the system then checks for alcohol using a sensor and ensures the seatbelt is fastened before allowing ignition. It also monitors fuel level and speed, providing alerts if needed. The goal is to prevent unauthorized or unsafe driving through multi-factor authentication before starting the vehicle.
IRJET- Authenticated Locker System using Watchword ProtectionIRJET Journal
This document describes an authenticated locker system using password protection that is designed using an Arduino kit. The system uses a password entered on a 4x4 keypad to control a servo motor that opens and closes a door. If the correct password is entered, the door will open for 30 seconds before closing. If an incorrect password is entered multiple times, a buzzer will sound. The system aims to provide effective security for applications like bank lockers or secure doors at an affordable cost. It analyzes the entered password and stored password in the Arduino's memory to determine if access should be granted.
IRJET - Driver Drowsiness and Alcohol Detection with Car Tracking System usin...IRJET Journal
This document proposes a system using IoT to prevent accidents from drunk or drowsy driving. The system includes sensors to detect alcohol concentration using an MQ-3 sensor, eye blink rate using image processing on a Raspberry Pi to detect drowsiness. It also includes a GPS sensor to track the vehicle's coordinates. If the driver is detected as drunk or drowsy, protective measures are taken like turning off the ignition and triggering an alarm. The location and alerts would also be sent to family members. The overall aim is to prevent accidents from drunk or sleepy driving and provide car tracking for safety or theft situations.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
This document summarizes a research paper that proposes a next generation engine immobilizer system using face recognition and remote access capabilities. The current RFID-based immobilizers can be hacked, allowing increased vehicle theft. The proposed system replaces RFID with face recognition for driver authentication using near-infrared light and image processing in LabVIEW. It also allows the owner to remotely stop the vehicle if stolen by sending an OTP to the owner's email. Additional safety features like ensuring door closure before ignition and a hidden camera activated during theft are included. The system aims to enhance security while maintaining usability through features like keyless entry.
Advanced Security System for Bank Lockers using Biometric and GSMIRJET Journal
This document proposes an advanced security system for bank lockers using biometric authentication and GSM technology. The system aims to provide more secure access to bank lockers than traditional key-based systems. It works by enrolling users through fingerprint scanning and storing their fingerprint data and mobile number in a database. When a user wants to open their locker, the system verifies their identity by matching their fingerprint and sends a one-time password via SMS to their registered mobile number. The user then enters this password to unlock the locker, providing two-factor authentication through biometrics and mobile verification. The system is designed to address security issues with lost or duplicated keys and keep pace with digital authentication methods.
An Automatic Car Engine Startup and Brake Oil Monitoring Using SensorsIJRES Journal
The primary concern of “An Automatic Car Engine Startup and Brake Oil Monitoring Using Sensors” is to monitor the level of brake oil and to monitor the exact amount of engine fuel in digital form. It also shows the importance of unimodal biometric in order to identify or to verify a person that wants to start the engine of the car. A fingerprint sensor is placed on the car’s door and one in the dashboard to start the engine. If the person’s fingerprint matches then he can get into the car and start the engine.
IRJET- Smart Helmet for Accident PreventionIRJET Journal
This document describes a smart helmet system that prevents motorcycle accidents by checking if the rider is wearing a helmet and is not under the influence of alcohol before starting the engine. The system includes an alcohol sensor and helmet switch fitted in the helmet that send data to a microcontroller. If either condition is not met, the microcontroller will not allow the engine to start. It also detects accidents using an accelerometer and sends location data via GSM to emergency contacts to help save lives. The system aims to reduce head injuries from no-helmet accidents and drunk driving accidents in developing nations like India where motorcycles are widely used.
DEVELOPMENT OF AUTOMATIC GEOFENCING AND ACCIDENTAL MONITORING SYSTEM BASED ON...IJCSEA Journal
The main objective of this project is to design and develop an embedded system for vehicle to detect the road accident for immediate medical help as well as for security purpose in theft prevention using single shock sensor. In case of accidental mode the system should inform automatically via text message to medical rescue team indicating the position of vehicle location. When there is no car driver, vehicle should automatically go into security mode. When a person tries to steal the vehicle, this system should send an alert message to the owner. The system Geo fencing and accidental monitoring system based on AT89S52 as a central core. This includes various technologies: a shock sensor, Liquid crystal display (LCD), Dual relay and wireless communication. This system also includes Geo fencing technology. Geo fencing enables the remote monitoring of predefined set of boundaries and automatic detect when vehicle exit from these areas.
IRJET- Tara - An Accident and Alcohol Detecting Bluetooth Enabled Smart H...IRJET Journal
This document describes a smart helmet called "Tara" that detects accidents, alcohol levels, and whether the helmet is being worn. It uses sensors like an alcohol sensor, breath analyzer, MEMS sensor, touch sensor, and rain sensor connected to a microcontroller. The MEMS sensor detects accidents by measuring tilts. The breath analyzer and alcohol sensor check for a human and alcohol levels in their breath. A touch sensor confirms the helmet is worn. It connects via Bluetooth to send emergency alerts with location data if an accident or high alcohol is detected. The system aims to reduce accidents by promoting safer riding behaviors like wearing a helmet and preventing drunk driving.
This document discusses a security system project that uses fingerprint and keypad authentication to allow authorized individuals access. The system is programmed using an embedded microcontroller and C language. When a person places their finger on the reader, the system will check if they are authorized and prompt for a pin entry via keypad or mobile. If authorized, a message is sent to their mobile via GSM technology. The system aims to provide low-cost, automated security access for applications like ATMs.
A low-cost and simple distributed sensors model that is particularly suitable for measuring eye blink of the driver, accident and hand position on a steering wheel. These sensors can be used in automotive active safety systems that aim at detecting driver’s fatigue, a major issue to prevent road accidents. The key point of this approach is to design a prototype of sensor units, so that it can serve as platform for integrating different kinds of sensors into the steering wheel. Since the sensors are attached to the steering wheel, therefore they can’t be detached by the driver. It will also detect dangerous stylish driving which may lead to fatal accidents. The major drawback is that the eye blink sensors frame worn by the driver can be removed causing the sensor non-operational. The outcome is that the vibrator attached to eye blink sensor’s frame vibrates if the driver shuts his eyes for approximately 3 seconds and also the LCD displays the respective warning message. The wheel is slowed or stopped depending on the condition. This is accompanied by the vehicle’s owner being notified through the GSM module, so the owner can retrieve the driver’s location, photograph and a list of nearby police stations through an android mobile application. Therefore, driver can be alerted during drowsiness and the owner can be notified simultaneously.
IRJET - Smart License Generation in RTOIRJET Journal
The document describes a proposed system to automate the process of driving license generation and testing in the Regional Transport Office (RTO) using sensors and wireless communication. The system would replace human supervision of the driving test with sensors in the vehicle and test lane to monitor the candidate's driving skills. Infrared sensors in the vehicle and lane would track the candidate's movements and send the data via a wireless sensor network to be uploaded to a webpage using Internet of Things technology. This would allow the entire testing process to be evaluated without additional human supervision and help reduce manual errors and interference.
The document proposes a "smart human two wheeler safety system" that uses sensors in a helmet like an alcohol sensor, IR sensor, and push buttons to determine if the rider is wearing the helmet properly and is unimpaired by alcohol. The helmet system communicates wirelessly via RF transmitter and receiver with the bike to allow it to start only if the helmet sensors detect everything is safe. The goal is to reduce accidents and deaths by ensuring helmet usage and sobriety before allowing a bike to start.
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
"Two wheeler vehicle security system (TWVSS)" IJESET Vol 6 Issue 3, Dec 2013Prashantkumar R
This Research Work was carried out by the Authors as a part of Final Year B.E. Project.
Published: International Journal of Engineering Sciences & Emerging Technologies, Dec. 2013. ISSN: 2231 – 6604 Volume 6, Issue 3, pp: 324-334
http://ijeset.com/Volume6Issue3.html
Award: MOST INNOVATIVE PROJECT at Project EXPO - 2013
Organized by GRID INDIA and TJIT Bengaluru.
This document summarizes a research paper that designed and implemented a dual tone multi-frequency (DTMF) based GSM-controlled car security system. The system uses a DTMF decoder and GSM module to allow a car to be remotely controlled and secured from a mobile phone. It works by sending DTMF tones from the phone through calls to the GSM module in the car. The decoder interprets the tones and a microcontroller executes commands to disable the ignition or control other devices. The system was created to improve car security and accessibility through remote monitoring and control with DTMF and GSM technology.
This document provides a project definition for a fingerprint-based security system. The system will use an AT89C51 microcontroller to analyze fingerprint scans and activate a motor if an authorized fingerprint is detected. Fingerprint data will be stored on the microcontroller even without power. The system block diagram outlines the fingerprint sensor, oscillatory circuit, microcontroller, relay, motor driver and motor components. Software will include a device driver for fingerprint detection and motor control. Serial communication and LCD interfacing is also specified.
This document describes an advanced vehicle security system that uses fingerprint and GSM module for authentication. The system aims to provide a more secure and reliable authentication method compared to existing technologies. It consists of a fingerprint sensor module, GSM modem, microcontroller, relay driver, LCD display, and vibration sensor. The fingerprint module scans and identifies fingerprints, while the GSM modem enables remote authentication via SMS. If authentication succeeds, the relay driver will start the vehicle. This provides a low-cost security system with advantages like reliability, security, and ease of use. Potential applications include securing cars, motorcycles, and other vehicles or devices.
The document describes an advanced vehicle security system that uses fingerprint identification technology. It scans the driver's fingerprint and only allows the vehicle to start if there is a match with an enrolled fingerprint. This prevents theft even if someone has access to the vehicle keys. The system can also send text messages to the owner's phone with the vehicle's status or if any impacts are detected while it is parked. It aims to implement a fingerprint recognition algorithm to extract features like minutiae from fingerprint images and perform matching.
This document discusses the development of anti-theft security systems. It begins by providing background on vehicle tracking systems using GPS and GSM technology. These systems can track vehicle location in real-time and send alerts to owners if theft is detected. The document then discusses objectives of developing a security system for a lecturer's room door, including programming an auto-lock feature and creating a GUI for user control. It aims to integrate the door locking system with a PC for remote access and control. The scope is outlined as focusing on software and hardware development for a basic PC-controlled security system as a demonstration project.
anti theft alarm for bikes by vinod and venuvenu13
This document summarizes a student project that designed an anti-theft alarm system for bikes. The circuit uses a 555 timer, 7805 voltage regulator, 7473 JK flip-flop, and LM311 comparator. It has a transmitter section with an IR LED attached to the front mudguard and a receiver section with an IR sensor. When the mudguard is moved, the sensor detects the IR signal and sounds the bike horn through a relay. The system provides security for vehicles in a low-cost and effective way.
This document describes an anti-theft system for bikes and cars. The system uses a microcontroller, GSM module, sensors, and other components to detect unauthorized access and notify owners. It summarizes the components, working, and advantages of the system. The system prevents theft by requiring a password to start the ignition, tracking motion with IR sensors, and alerting owners via text message if the wrong password is entered multiple times. It provides security at a low cost and allows owners to control the system remotely.
This dissertation examines the impacts of social movements through a multi-layered study of the Mississippi Civil Rights Movement from the 1960s to the early 1980s. The study analyzes county-level data and three case studies to understand how the movement transformed social structures and faced constraints. Key events studied include the expansion of voting rights and gains in black political power, school desegregation, and anti-poverty programs. The dissertation challenges the argument that social movements are inconsequential by showing how the civil rights movement drove institutional changes in Mississippi through independent movement structures.
This document provides guidance on how to write an abstract. It discusses what an abstract is, who writes them and for what purposes. It covers the different types of abstracts, including descriptive and informative. It provides details on what to include in an abstract, such as the problem, methodology, results and conclusions, and what not to include, like references and quotations. Examples of descriptive and informative abstracts are also given.
This document proposes and describes a biometric vehicle access system using fingerprint recognition. The system uses a fingerprint module connected to a microcontroller to control ignition access and start the vehicle engine only upon a matching fingerprint. If an unauthorized fingerprint is used, the microcontroller sends a SMS alert to the vehicle owner using an onboard GSM module. The system provides increased vehicle security over traditional keys and prevents unauthorized vehicle access and theft.
Design and Analysis of Ignition based on RFID by Arduino Nano CompilerIRJET Journal
This document describes a design for an ignition system for motorcycles that is activated using RFID technology. The system uses an Arduino Nano microcontroller connected to an RFID reader to read RFID tags. When a valid, authorized tag is scanned by the reader, the microcontroller activates a relay which starts the ignition. This provides a keyless security system to prevent theft. The system aims to provide a higher level of security than password-based systems by using unique RFID tags. It also allows new tags to be authorized and deactivated remotely through software. The document outlines the components, methodology, and technical specifications of the prototype ignition system based on RFID authentication.
IRJET- High Security System for Money Carrying VAN to ATM’SIRJET Journal
This document summarizes a research project that developed a high security system for money carrying vans. The system uses both a password entered on a keypad and fingerprint authentication for security. It contains a microcontroller, fingerprint sensor, LCD display, GSM module, and keypad. If an unauthorized person enters the wrong password, access is denied and an alert message is sent via the GSM module. If the password is correct but the fingerprint does not match, access is again denied and an alert sent. The system is designed to improve security when transporting money in vans compared to using guards alone.
Vehicle anti theft system based on an embedded platformeSAT Journals
Abstract In modern day vehicles, vehicle anti-theft system is of prime importance. The vehicle anti-theft system presented here consists of multiple layers of protection with one complementing the other, rather than the conventional anti-theft system where a particular system is only being used. The first layer of protection in the system is a Fingerprint recognition, based on which the doors are opened. The Fingerprint matching is done by utilizing the Minutiae based Fingerprint recognition scheme. Also to prevent thieves from breaking the glass and getting inside the vehicle, vibration sensors are used in all the windows with a threshold level to prevent false alarms. Once inside, the vehicle is turned on only with the mechanical keys along with correct key number entry on the combination keypad present, failing to do so for three successive times will result in vehicle getting immobilized by cutting the fuel supply and an alert message is sent to the mobile number of the owner. Further to prevent the seizure of the vehicle, Tyre pressure sensor is also being used which also alerts the owner through a mobile message. The seized vehicle can be tracked using a GPS tracker which is also being attached. The different layers of protection defined are controlled by an ARM 7 based controller acting as the central node. The whole system was tested using a test set up by mimicking the vehicle door, vehicle immobilizer etc. with equivalent motors whereas Fingerprint data was received from Matlab based GUI application. The experimental results proved the functionality of the anti-theft system in working environment. Index Terms: Vehicle anti-theft, Fingerprint recognition, ARM 7, Immobilizer
Unifying the Global Positioning system technology this article d esigns and realizes one kind of embedded wireless system named intelligent vehicle control for criti cal remote location application using microcontroller from the hardware and software. In terms of th e hardware completed the design and connection of embedded system,GPS module,obstacle testing module,different parameter monitoring sensor modules and the GSM module. The system can achieve the purpose of long distance real time monitoring and control of vehicle. The executive results of laboratory tests show that the system fulfils real time control and functional parameter monitoring of vehicle. In our pr oposed security system we are adding new features in addition to engine immobilizer and alarm. One of the important features supported by our system is to alert the owner by sending an SMS about the thef t attempt,using GSM Technology. The system is compatible with all brands of the vehicle. F or the worst case scenario Redundancy is maintained to make the system reliable.
Intellectual Bank Locker Security SystemIJERA Editor
In today's modern world, security plays an important role. Every person has precious accessories like gold,
documents or cash. The main goal of this project is to design and implement a bank locker security system
based on fingerprint and GSM technology. It reduces wastage of time for both banker as well as customer and
provides advanced security. In this system, only authentic persons can recover money or accessories from bank
locker. In this system the user’s name, fingerprint and mobile number are enrolled. If the fingerprint matches,
then four digit code will be sent to the authorized person’s mobile through GSM modem and the locker door
will be opened then, otherwise it will be in locked position and gives an alarm when any mismatch occurs. The
sensors will be active during night times to provide security against thefts.
IRJET- E-Safety System for Two WheelersIRJET Journal
The document describes a proposed e-safety system for two-wheelers to prevent theft. The system uses an immobilizer controlled by an Arduino board that prevents the engine from starting without an authorized key. The key contains a transponder chip that must match the code stored in the immobilizer. A flow control valve regulated by the Arduino board prevents fuel from flowing unless the codes match upon key insertion. The system aims to provide effective anti-theft protection at low cost compared to existing options.
IRJET- E-Safety System for Two WheelersIRJET Journal
This document describes a proposed e-safety system for two-wheelers to prevent theft. The system uses an immobilizer key that contains an electronic code. When the key is inserted, the engine control unit (ECU) will only start the engine if the code in the key matches the code stored in the immobilizer. A circuit board containing an Arduino board controls a fuel flow valve. When the matching coded key is turned on, its transmitter sends a signal to a receiver on the circuit board. The Arduino then opens the fuel valve, allowing fuel to flow and the engine to start. Without the correct coded key and transmitter signal, the fuel valve remains closed and prevents engine startup, thwarting potential thieves.
This document summarizes an intelligent safety helmet system that is designed to improve road safety. The system includes sensors in the helmet that can detect if the helmet is being worn and if the rider has consumed alcohol. It also includes accident detection sensors on the motorcycle that can notify emergency contacts by SMS with the rider's location if an accident occurs. The system aims to enforce safety rules and get medical help to riders more quickly after an accident. It uses wireless communication between modules on the helmet and motorcycle to link the systems together.
This document describes an advance ATM security system that uses various sensors like IR sensors for motion detection, a servo motor for closing and opening the cabin gate, an LCD display, and an alarm or buzzer for alerts. The system aims to improve ATM security and make it safer to use by monitoring for unauthorized access or tampering. When motion is detected or more than two people enter the cabin, the door will automatically close and an alert will be sent to the nearby police station via messages displayed on the LCD. The system uses a Node MCU microcontroller to process sensor data and control the components.
This document describes a smart helmet system that aims to improve motorcycle safety. The system uses sensors to check if the rider is wearing a helmet before allowing the bike to start. It also checks if the rider has been drinking alcohol. The system contains an Arduino microcontroller, alcohol sensor, IR sensor, vibration sensor, GPS and GSM modules. If an accident occurs, the GPS detects the location which is then sent as a text message via GSM to emergency contacts. The goal is to enforce helmet usage and prevent drunk driving, while facilitating quicker emergency response times after an accident. The system provides safety benefits and could help reduce traffic violations and casualties from motorcycle accidents.
This document summarizes a research paper on developing a smart helmet and feature bike system. The smart helmet uses sensors to detect if a helmet is being worn, detect alcohol levels on a rider's breath, and send emergency alerts via GPS and GSM if an accident occurs. The system is intended to improve road safety by ensuring riders wear helmets, preventing drunk driving, and enabling faster emergency response. The smart helmet design incorporates an IR sensor, alcohol sensor, GPS receiver, limit switch, and other components connected to an ARM microcontroller. If no helmet is detected, if alcohol levels are too high, or if an accident occurs, the system can prevent ignition or alert emergency contacts by SMS. The researchers aim to commercialize this system
This document describes a fingerprint-based security system project. The system uses a fingerprint sensor and microcontroller to scan fingerprints and compare them to registered fingerprints to grant access. It has two modes - master mode to add and delete users, and user mode to authenticate employees. If the scanned fingerprint matches a registered print, the microcontroller sends the user ID to the computer and activates devices like unlocking a door. The system aims to provide secure access control for organizations using biometric fingerprint identification.
This document describes a fingerprint-based electronic voting system that uses biometrics for voter authentication. The system stores fingerprint images of registered voters and scans fingerprints on election day to verify identities before allowing votes to be cast. If the scanned fingerprint matches a stored image, the voter can enter to vote. Otherwise, the system alerts that the voter cannot vote. The system is designed to prevent rigging in elections by authenticating voters through their fingerprints.
This document summarizes an authentication system for vehicle ignition using a smart card and fingerprint recognition. The system stores a user's fingerprint on their smart card driving license. To start the vehicle, the user inserts their license which is verified against the stored fingerprint. If verified, the system checks for alcohol and seatbelt use before allowing ignition. It is intended to reduce unlicensed and unsafe driving using biometrics for positive driver identification and sensors to enforce safe operating procedures. The system was implemented on a microcontroller with various sensors and an LCD for outputs. It was shown to successfully control ignition based on the authentication steps and provide alerts for issues like low fuel or speeding.