This system tracks vehicles using GPS and locks or unlocks engines via GSM. It continuously monitors a vehicle's location via GPS and can report the status on demand via GSM. If theft is detected, the owner can send an SMS to stop the engine. An authorized person must then enter a password via SMS to restart the engine. This provides secure, reliable, and low-cost vehicle tracking and theft prevention.
Alcohol Detection System in Vehicle using ArduinoIRJET Journal
This paper describes a system to detect alcohol in a vehicle using an Arduino board, an MQ3 alcohol sensor, an LCD display and a buzzer. The system is installed in a vehicle and uses the alcohol sensor to detect alcohol levels in a person's breath when they enter the vehicle. If alcohol is detected, the buzzer sounds and a message is displayed on the LCD. The system is designed to prevent accidents caused by drunk driving by automatically shutting off the vehicle's ignition if alcohol is present. The paper provides details of the hardware components used, including the Arduino board, alcohol sensor and LCD display. It also includes the system workflow, advantages and potential applications of the system.
Alcohol Sensing Alert with Engine Locking using IOTIRJET Journal
This document describes a system to prevent drunk driving accidents using sensors and automatic engine locking. The system uses an alcohol sensor, microcontroller, and IOT devices. If the alcohol sensor detects alcohol above a certain threshold when the vehicle is in motion, the system will automatically lock the engine to prevent further driving. The goal is to reduce accidents caused by drunk driving by automatically controlling the vehicle. The system algorithm first checks the vehicle speed, then uses various sensors to detect alcohol levels and other parameters. If alcohol is detected while the vehicle is in motion, the fuel supply will be blocked to stop the car. Notification will also be sent to emergency contacts and authorities. The proposed system aims to improve road safety by preventing intoxicated driving through automatic
This document presents an alcohol detection and monitoring system with engine locking that is designed to reduce drunk driving accidents. The system uses an alcohol sensor to detect alcohol levels in a driver's breath and will send a signal to a microcontroller to stop the engine and trigger an alarm if alcohol is detected. It also uses a GPS module to track the vehicle's location and a GSM module to send a message with the location to local authorities. The system is intended to automatically detect drunk driving and alert authorities in order to improve road safety.
Liquor detection through Automatic Motor locking system pptPankaj Singh
The main purpose behind this project is “Drunken driving detection”. Now-a-days, many accidents are happening because of the alcohol consumption of the driver. Thus drunk driving is a major reason of accidents in almost all countries all over the world
Project report on Vehicle accident and Alcohol sensing alert with Engine Lock...Hitesh Kumar Singh
The main purpose behind this project is “Drunk driving detection”. Now a days, many accidents are happening because of the alcohol consumption of the driver or the person who is driving the vehicle. Thus, Drunk driving is a major reason of accidents in almost all the countries in the world. Alcohol Detector in Car project is designed for the safety of the people seating inside the car. This project should be fitted / installed inside the vehicle. If any Accident occurs then engine goes off and Alarm goes on. If there is no alcohol / no accident, then the Engine remains on and Alarm remains off. Even, if the Alcohol is detected, the engine goes off Alarm starts beeping.
Synopsis on vehicle accident and alcohol sensing alert with engine locking sy...Hitesh Kumar Singh
This document describes a vehicle accident and alcohol sensing system that locks the engine if the driver is drunk or if an accident occurs. The system uses an alcohol sensor to detect alcohol levels in the driver's breath and sends a signal to a microcontroller. If alcohol is detected while starting the engine, it will not start. If alcohol is detected after starting, the engine will lock. The system aims to prevent drunk driving accidents by automatically stopping vehicles that are being operated by intoxicated drivers.
Automatic Car Theft Detection System Based on GPS and GSM Technologyijtsrd
An efficient automotive security system is implemented for anti theft using an embedded system integrated with Global Positioning System GPS and Global System for Mobile Communication GSM. System presented has Two types of tracking, one is online tracking with GPS system can only receive the vehicle location information from satellites and other is offline tracking. GSM system is installed in the vehicle for sending the information to the owner of the vehicle. The preventive measures like engine ignition cutoff is installed in the vehicle which is controlled using user or owner GSM mobile. The owner can lock or unlock his her vehicle with the help of SMS. The system is implemented on general purpose printed circuit board PCB Using Arduino. Sandeep Singh | Poonam Kumari ""Automatic Car Theft Detection System Based on GPS and GSM Technology"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23867.pdf
Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/23867/automatic-car-theft-detection-system-based-on-gps-and-gsm-technology/sandeep-singh
Now a days 90% of accidents happening due to silly reason of alcohol drinking. so we introduce this project for saftey of people and preventing accidents due to alcohol consumption.
Alcohol Detection System in Vehicle using ArduinoIRJET Journal
This paper describes a system to detect alcohol in a vehicle using an Arduino board, an MQ3 alcohol sensor, an LCD display and a buzzer. The system is installed in a vehicle and uses the alcohol sensor to detect alcohol levels in a person's breath when they enter the vehicle. If alcohol is detected, the buzzer sounds and a message is displayed on the LCD. The system is designed to prevent accidents caused by drunk driving by automatically shutting off the vehicle's ignition if alcohol is present. The paper provides details of the hardware components used, including the Arduino board, alcohol sensor and LCD display. It also includes the system workflow, advantages and potential applications of the system.
Alcohol Sensing Alert with Engine Locking using IOTIRJET Journal
This document describes a system to prevent drunk driving accidents using sensors and automatic engine locking. The system uses an alcohol sensor, microcontroller, and IOT devices. If the alcohol sensor detects alcohol above a certain threshold when the vehicle is in motion, the system will automatically lock the engine to prevent further driving. The goal is to reduce accidents caused by drunk driving by automatically controlling the vehicle. The system algorithm first checks the vehicle speed, then uses various sensors to detect alcohol levels and other parameters. If alcohol is detected while the vehicle is in motion, the fuel supply will be blocked to stop the car. Notification will also be sent to emergency contacts and authorities. The proposed system aims to improve road safety by preventing intoxicated driving through automatic
This document presents an alcohol detection and monitoring system with engine locking that is designed to reduce drunk driving accidents. The system uses an alcohol sensor to detect alcohol levels in a driver's breath and will send a signal to a microcontroller to stop the engine and trigger an alarm if alcohol is detected. It also uses a GPS module to track the vehicle's location and a GSM module to send a message with the location to local authorities. The system is intended to automatically detect drunk driving and alert authorities in order to improve road safety.
Liquor detection through Automatic Motor locking system pptPankaj Singh
The main purpose behind this project is “Drunken driving detection”. Now-a-days, many accidents are happening because of the alcohol consumption of the driver. Thus drunk driving is a major reason of accidents in almost all countries all over the world
Project report on Vehicle accident and Alcohol sensing alert with Engine Lock...Hitesh Kumar Singh
The main purpose behind this project is “Drunk driving detection”. Now a days, many accidents are happening because of the alcohol consumption of the driver or the person who is driving the vehicle. Thus, Drunk driving is a major reason of accidents in almost all the countries in the world. Alcohol Detector in Car project is designed for the safety of the people seating inside the car. This project should be fitted / installed inside the vehicle. If any Accident occurs then engine goes off and Alarm goes on. If there is no alcohol / no accident, then the Engine remains on and Alarm remains off. Even, if the Alcohol is detected, the engine goes off Alarm starts beeping.
Synopsis on vehicle accident and alcohol sensing alert with engine locking sy...Hitesh Kumar Singh
This document describes a vehicle accident and alcohol sensing system that locks the engine if the driver is drunk or if an accident occurs. The system uses an alcohol sensor to detect alcohol levels in the driver's breath and sends a signal to a microcontroller. If alcohol is detected while starting the engine, it will not start. If alcohol is detected after starting, the engine will lock. The system aims to prevent drunk driving accidents by automatically stopping vehicles that are being operated by intoxicated drivers.
Automatic Car Theft Detection System Based on GPS and GSM Technologyijtsrd
An efficient automotive security system is implemented for anti theft using an embedded system integrated with Global Positioning System GPS and Global System for Mobile Communication GSM. System presented has Two types of tracking, one is online tracking with GPS system can only receive the vehicle location information from satellites and other is offline tracking. GSM system is installed in the vehicle for sending the information to the owner of the vehicle. The preventive measures like engine ignition cutoff is installed in the vehicle which is controlled using user or owner GSM mobile. The owner can lock or unlock his her vehicle with the help of SMS. The system is implemented on general purpose printed circuit board PCB Using Arduino. Sandeep Singh | Poonam Kumari ""Automatic Car Theft Detection System Based on GPS and GSM Technology"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23867.pdf
Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/23867/automatic-car-theft-detection-system-based-on-gps-and-gsm-technology/sandeep-singh
Now a days 90% of accidents happening due to silly reason of alcohol drinking. so we introduce this project for saftey of people and preventing accidents due to alcohol consumption.
ECE Projects for Final Year, Embedded Projects in Bangalore, Engineering Projects in Bangalore, Final Year Projects in Vijayanagar, ECE projects in Vijayanagar, Embedded Project institute in Vijayanagar
this presentation tells about the vehicle controll by alcohole detector,where we have ellborately designed what is an alcohole detector,how it is made,and its application in the circuit when it leads to controlling of the vehicle.
Microcontroller based smart wear for driver safetyeSAT Journals
Abstract An accident is a specific, unexpected, unusual and unintended external action which occurs in a particular time and place, with no apparent and deliberate cause but with marked effects. Carelessness of the driver is the major factor of such accidents. The traffic authorities give a lot of instructions to the vehicle operators. But many of them do not obey the rules. Nowadays most of the countries are forcing the motor riders to wear the helmet and not to use the vehicles when the person is in drunken condition. But still the rules are being violated by the users. India has the largest number of road accidents in the world out of which 22.4% of victims are occupants of two wheelers, 30% of road accidents victims die at crash site, 14% in ambulance and rest in hospital. Our proposal is to reduce the number of deaths which occur at crash site and on the way to the hospital due to delay in Emergency Trauma Care Services. Keywords- accident, carelessness, helmet, drunken driving, two wheelers
The document provides an overview of alcohol interlock technology, including how the devices work, installation, sensor types, accuracy standards, features, tampering prevention, and future advances. It explains that alcohol interlocks prevent vehicle startup if breath alcohol is above a preset limit, and require subsequent retests while driving to ensure sobriety. The technology is designed to be highly accurate while resistant to circumvention or environmental factors.
This document describes a project report submitted by two students for their bachelor's degree. It outlines the development of an alcohol detection system for vehicles using various hardware components like an alcohol sensor, microcontroller, LCD, buzzer, GSM module and motor. The system is intended to detect if a driver has consumed alcohol and prevent the vehicle from starting by activating the buzzer and taking control of the vehicle remotely through wireless communication.
Drunken drive detection with smart ignition lockjournalBEEI
Drink and drive issue have become solemnly that needs immediate attention. This is due to drivers’ ignorance towards road rules and regulations and their selfish attitude that caused loss of innocent lives. Although previously there is a drunk detecting mechanism using breathalyzer but it isn’t suitable for current fast-paced lifestyle. Therefore, to overcome these issues, this system is proposed. This system is fixed on vehicle’s steering to measure alcohol concentration reading using MQ-3 sensor from the driver’s exhaled breath. If the driver found to be drunk beyond the threshold level of 400 ppm, then ignition lock is activated and the car engine does not start till alcohol concentration falls to a safe level. Or, if the driver consumes an alcoholic drink while driving, upon exceeding permissible limit, the car slows down till it stops. Then, the location of the vehicle is tracked and sent as Google Map integrated link via text message to authorized unit. Simultaneously, the car buzzer goes off while the car slows down so that surrounding road users are aware of the driver’s condition and drives at a distance. The proposed detection system is highly potential to be implemented for reducing the drunk and drive accidents.
IRJET- Automatic Engine Locking System through Alcohol Detection in Ardui...IRJET Journal
This document describes a system to automatically lock a vehicle's engine if the driver is detected to be over the legal alcohol limit. The system uses an Arduino board connected to an MQ3 alcohol sensor, GSM module, LCD display, and DC motor. If the sensor detects alcohol levels above the limit when the engine is started, it will send a notification message via GSM, display a message on the LCD, and trigger the motor to lock, preventing the vehicle from being driven under the influence of alcohol. The goal is to increase road safety by preventing drunk driving accidents. It proposes hardware and software requirements and provides examples of potential future enhancements like GPS and health monitoring.
Microcontroller based automatic engine locking system for drunken driversVinny Chweety
This document describes a mini project report on a microcontroller-based automatic engine locking system for drunken drivers. The system uses an AT89S52 microcontroller and various hardware components like an alcohol detection sensor, buzzer, LCD display, motors/engine, and other supporting circuitry. If the alcohol detection sensor detects alcohol levels above a set limit from the driver's breath, the microcontroller will lock the engine by activating a relay to prevent drunken driving and accidents. The project aims to increase road safety by preventing intoxicated individuals from operating vehicles.
This document describes a smart car system that uses various sensors and a microcontroller to address common problems faced while driving such as road blocks, potholes, speed bumps, and vehicle theft. The proposed system uses an Arduino Mega microcontroller along with ultrasonic sensors, a sound sensor, GSM and GPS modules, an RF module, and an LCD to provide features like speed bump detection, pothole detection, parking assistance, and vehicle tracking. The system is intended to help make travel safer and less stressful by anticipating hazards and providing guidance.
This document describes an alcohol detection system for vehicles that aims to prevent drunk driving. The system uses an alcohol sensor and amplifier to detect alcohol levels, an analog-to-digital converter to condition the signal, and a microcontroller to process the data and control the system. Based on the alcohol levels, the microcontroller can activate a relay to control the vehicle or display warnings. The system is intended to increase road safety by preventing operation of vehicles by intoxicated drivers.
This document describes an automatic engine locking system for drunken drivers using a microcontroller-based embedded system. The system uses an AT89S52 microcontroller, MQ-3 alcohol detection sensor, buzzer, LCD display, motors and other components. It aims to prevent accidents caused by drunk driving by locking the engine if the sensor detects alcohol on the driver's breath. The system has advantages like automation, safety and low power. Potential applications include use in vehicles and workplaces to detect alcohol consumption. Future enhancements could include GSM and GPS for location and notification.
ALCOHOL AND HELMET DETECTION WITH ENGINE LOCKING SYSTEM USING GSMMallemptiOohasri
“ALCOHOL DETECTOR AND HELMET DETECTOR PROJECT” can be used in the various vehicles for detecting whether the driver as consumed alcohol or not, while coming to two wheelers whether the person is wearing a helmet or not.
2. This project can also be used in various companies or organizations to detect alcohol consumptions of employees.
3.The main purpose behind this project is “drunken driving and helmet detection”. Now-a-days, drunk driving and not wearing helmet is the major reason of accidents in almost all over the countries in the world.
4. Alcohol detector in engine/motor project is designed for the safety of the people who is driving the vehicle. The project is installed in the vehicle.
Synopsis for alcohol detection with vehicle controlling (1)Pankaj Singh
This document provides a project synopsis for an alcohol detection system through an automatic motor locking system. It includes an introduction describing the purpose to prevent drunk driving accidents, a block diagram of the system components, circuit diagram, working operation description, list of components, cost estimate, advantages, applications, related past work, and PCB layout. It also provides the C programming code to initialize an LCD display and implement the alcohol detection and motor locking functionality.
This document describes a vehicle accident prevention system with an embedded alcohol detector. The system is designed to avoid accidents caused by drunk driving. It includes an alcohol sensor connected to a microcontroller that will detect if the driver has been drinking. If alcohol is detected, the vehicle will not start and a message will be sent by GSM to authorized individuals. The system aims to provide a more effective way to prevent drunk driving compared to existing external devices. It functions as an internal system connected to the vehicle's ignition to automatically check the driver for alcohol consumption before allowing the vehicle to start.
IRJET - Construction of "One Belt and One Road" Intelligent Analysis SystemIRJET Journal
This document describes a proposed intelligent system for controlling vehicles on the "One Belt One Road" initiative using sensors. The system aims to improve road safety and enforce traffic rules. It would use a galvanic skin response sensor to monitor drivers for health issues, control vehicle speed in different zones, control horn use in prohibited areas, and prevent parking in restricted places. The system architecture includes an RF transmitter on traffic signals that communicates with an RF receiver and microcontroller in each vehicle. The goal is to address common causes of accidents like ignoring traffic signals and rules through automated vehicle monitoring and control.
High sensitive alcohol sensor with auto car ignition disables functionJagadeesh Yadav
This document describes a proposed system to develop vehicle accident prevention through an alcohol detector that would integrate an alcohol sensor with a microcontroller. The system is intended to reduce accidents caused by drunk driving. It would use an MQ-2 alcohol sensor to detect alcohol levels in a person's breath and an ignition system prototype to disable the car's ignition if alcohol is detected above a certain threshold. The system is designed to automatically and accurately test for alcohol content in the body to prevent drunk driving accidents.
Developed a Business Plan as a team to secure funding for a new venture on “Automobile Alcohol Detection System” to reduce Singapore‘s drink-and-drive accident rate.
Automatic engine locking system for drunken driverdodosgusenga
This document describes a proposed system to automatically lock a vehicle's engine if the driver is detected to be drunk, in order to reduce accidents caused by drunken driving. The system uses an alcohol sensor, GPS module, GSM module, and microcontroller. If alcohol is detected, the vehicle's location will be tracked via GPS and a notification message will be sent via GSM to registered contacts. The engine will then be automatically locked to prevent the drunk driver from operating the vehicle. The goal is to increase road safety by preventing intoxicated individuals from driving after alcohol consumption.
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.
ALCOHOL DETECTION SYSTEM USING GSM TECHNOLOGYOodit Jethwa
This project is designed by keeping in mind the accidental death caused on the roads because of the consumption of alcohol by the driver. The whole system can be employed in any steering wheel equipped motor vehicle. The system which is made as compact as possible senses the alcohol molecules present in a specific range and if found, fails the attempt of the driver to start the engine. Pushing the envelope and considering the actuality of the situation where the driver may not be able to drive, the system is interfaced with the widely used GSM technology to establish a quick cellular contact with the closest kin or with the law enforcers.
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.
ECE Projects for Final Year, Embedded Projects in Bangalore, Engineering Projects in Bangalore, Final Year Projects in Vijayanagar, ECE projects in Vijayanagar, Embedded Project institute in Vijayanagar
this presentation tells about the vehicle controll by alcohole detector,where we have ellborately designed what is an alcohole detector,how it is made,and its application in the circuit when it leads to controlling of the vehicle.
Microcontroller based smart wear for driver safetyeSAT Journals
Abstract An accident is a specific, unexpected, unusual and unintended external action which occurs in a particular time and place, with no apparent and deliberate cause but with marked effects. Carelessness of the driver is the major factor of such accidents. The traffic authorities give a lot of instructions to the vehicle operators. But many of them do not obey the rules. Nowadays most of the countries are forcing the motor riders to wear the helmet and not to use the vehicles when the person is in drunken condition. But still the rules are being violated by the users. India has the largest number of road accidents in the world out of which 22.4% of victims are occupants of two wheelers, 30% of road accidents victims die at crash site, 14% in ambulance and rest in hospital. Our proposal is to reduce the number of deaths which occur at crash site and on the way to the hospital due to delay in Emergency Trauma Care Services. Keywords- accident, carelessness, helmet, drunken driving, two wheelers
The document provides an overview of alcohol interlock technology, including how the devices work, installation, sensor types, accuracy standards, features, tampering prevention, and future advances. It explains that alcohol interlocks prevent vehicle startup if breath alcohol is above a preset limit, and require subsequent retests while driving to ensure sobriety. The technology is designed to be highly accurate while resistant to circumvention or environmental factors.
This document describes a project report submitted by two students for their bachelor's degree. It outlines the development of an alcohol detection system for vehicles using various hardware components like an alcohol sensor, microcontroller, LCD, buzzer, GSM module and motor. The system is intended to detect if a driver has consumed alcohol and prevent the vehicle from starting by activating the buzzer and taking control of the vehicle remotely through wireless communication.
Drunken drive detection with smart ignition lockjournalBEEI
Drink and drive issue have become solemnly that needs immediate attention. This is due to drivers’ ignorance towards road rules and regulations and their selfish attitude that caused loss of innocent lives. Although previously there is a drunk detecting mechanism using breathalyzer but it isn’t suitable for current fast-paced lifestyle. Therefore, to overcome these issues, this system is proposed. This system is fixed on vehicle’s steering to measure alcohol concentration reading using MQ-3 sensor from the driver’s exhaled breath. If the driver found to be drunk beyond the threshold level of 400 ppm, then ignition lock is activated and the car engine does not start till alcohol concentration falls to a safe level. Or, if the driver consumes an alcoholic drink while driving, upon exceeding permissible limit, the car slows down till it stops. Then, the location of the vehicle is tracked and sent as Google Map integrated link via text message to authorized unit. Simultaneously, the car buzzer goes off while the car slows down so that surrounding road users are aware of the driver’s condition and drives at a distance. The proposed detection system is highly potential to be implemented for reducing the drunk and drive accidents.
IRJET- Automatic Engine Locking System through Alcohol Detection in Ardui...IRJET Journal
This document describes a system to automatically lock a vehicle's engine if the driver is detected to be over the legal alcohol limit. The system uses an Arduino board connected to an MQ3 alcohol sensor, GSM module, LCD display, and DC motor. If the sensor detects alcohol levels above the limit when the engine is started, it will send a notification message via GSM, display a message on the LCD, and trigger the motor to lock, preventing the vehicle from being driven under the influence of alcohol. The goal is to increase road safety by preventing drunk driving accidents. It proposes hardware and software requirements and provides examples of potential future enhancements like GPS and health monitoring.
Microcontroller based automatic engine locking system for drunken driversVinny Chweety
This document describes a mini project report on a microcontroller-based automatic engine locking system for drunken drivers. The system uses an AT89S52 microcontroller and various hardware components like an alcohol detection sensor, buzzer, LCD display, motors/engine, and other supporting circuitry. If the alcohol detection sensor detects alcohol levels above a set limit from the driver's breath, the microcontroller will lock the engine by activating a relay to prevent drunken driving and accidents. The project aims to increase road safety by preventing intoxicated individuals from operating vehicles.
This document describes a smart car system that uses various sensors and a microcontroller to address common problems faced while driving such as road blocks, potholes, speed bumps, and vehicle theft. The proposed system uses an Arduino Mega microcontroller along with ultrasonic sensors, a sound sensor, GSM and GPS modules, an RF module, and an LCD to provide features like speed bump detection, pothole detection, parking assistance, and vehicle tracking. The system is intended to help make travel safer and less stressful by anticipating hazards and providing guidance.
This document describes an alcohol detection system for vehicles that aims to prevent drunk driving. The system uses an alcohol sensor and amplifier to detect alcohol levels, an analog-to-digital converter to condition the signal, and a microcontroller to process the data and control the system. Based on the alcohol levels, the microcontroller can activate a relay to control the vehicle or display warnings. The system is intended to increase road safety by preventing operation of vehicles by intoxicated drivers.
This document describes an automatic engine locking system for drunken drivers using a microcontroller-based embedded system. The system uses an AT89S52 microcontroller, MQ-3 alcohol detection sensor, buzzer, LCD display, motors and other components. It aims to prevent accidents caused by drunk driving by locking the engine if the sensor detects alcohol on the driver's breath. The system has advantages like automation, safety and low power. Potential applications include use in vehicles and workplaces to detect alcohol consumption. Future enhancements could include GSM and GPS for location and notification.
ALCOHOL AND HELMET DETECTION WITH ENGINE LOCKING SYSTEM USING GSMMallemptiOohasri
“ALCOHOL DETECTOR AND HELMET DETECTOR PROJECT” can be used in the various vehicles for detecting whether the driver as consumed alcohol or not, while coming to two wheelers whether the person is wearing a helmet or not.
2. This project can also be used in various companies or organizations to detect alcohol consumptions of employees.
3.The main purpose behind this project is “drunken driving and helmet detection”. Now-a-days, drunk driving and not wearing helmet is the major reason of accidents in almost all over the countries in the world.
4. Alcohol detector in engine/motor project is designed for the safety of the people who is driving the vehicle. The project is installed in the vehicle.
Synopsis for alcohol detection with vehicle controlling (1)Pankaj Singh
This document provides a project synopsis for an alcohol detection system through an automatic motor locking system. It includes an introduction describing the purpose to prevent drunk driving accidents, a block diagram of the system components, circuit diagram, working operation description, list of components, cost estimate, advantages, applications, related past work, and PCB layout. It also provides the C programming code to initialize an LCD display and implement the alcohol detection and motor locking functionality.
This document describes a vehicle accident prevention system with an embedded alcohol detector. The system is designed to avoid accidents caused by drunk driving. It includes an alcohol sensor connected to a microcontroller that will detect if the driver has been drinking. If alcohol is detected, the vehicle will not start and a message will be sent by GSM to authorized individuals. The system aims to provide a more effective way to prevent drunk driving compared to existing external devices. It functions as an internal system connected to the vehicle's ignition to automatically check the driver for alcohol consumption before allowing the vehicle to start.
IRJET - Construction of "One Belt and One Road" Intelligent Analysis SystemIRJET Journal
This document describes a proposed intelligent system for controlling vehicles on the "One Belt One Road" initiative using sensors. The system aims to improve road safety and enforce traffic rules. It would use a galvanic skin response sensor to monitor drivers for health issues, control vehicle speed in different zones, control horn use in prohibited areas, and prevent parking in restricted places. The system architecture includes an RF transmitter on traffic signals that communicates with an RF receiver and microcontroller in each vehicle. The goal is to address common causes of accidents like ignoring traffic signals and rules through automated vehicle monitoring and control.
High sensitive alcohol sensor with auto car ignition disables functionJagadeesh Yadav
This document describes a proposed system to develop vehicle accident prevention through an alcohol detector that would integrate an alcohol sensor with a microcontroller. The system is intended to reduce accidents caused by drunk driving. It would use an MQ-2 alcohol sensor to detect alcohol levels in a person's breath and an ignition system prototype to disable the car's ignition if alcohol is detected above a certain threshold. The system is designed to automatically and accurately test for alcohol content in the body to prevent drunk driving accidents.
Developed a Business Plan as a team to secure funding for a new venture on “Automobile Alcohol Detection System” to reduce Singapore‘s drink-and-drive accident rate.
Automatic engine locking system for drunken driverdodosgusenga
This document describes a proposed system to automatically lock a vehicle's engine if the driver is detected to be drunk, in order to reduce accidents caused by drunken driving. The system uses an alcohol sensor, GPS module, GSM module, and microcontroller. If alcohol is detected, the vehicle's location will be tracked via GPS and a notification message will be sent via GSM to registered contacts. The engine will then be automatically locked to prevent the drunk driver from operating the vehicle. The goal is to increase road safety by preventing intoxicated individuals from driving after alcohol consumption.
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.
ALCOHOL DETECTION SYSTEM USING GSM TECHNOLOGYOodit Jethwa
This project is designed by keeping in mind the accidental death caused on the roads because of the consumption of alcohol by the driver. The whole system can be employed in any steering wheel equipped motor vehicle. The system which is made as compact as possible senses the alcohol molecules present in a specific range and if found, fails the attempt of the driver to start the engine. Pushing the envelope and considering the actuality of the situation where the driver may not be able to drive, the system is interfaced with the widely used GSM technology to establish a quick cellular contact with the closest kin or with the law enforcers.
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.
In the transportation of valuable materials, theft is very common in transit. Petroleum products are
stolen from tankers by the people authorized to transport them. Question papers of examinations are
sneaked out in transit before the examinations and leaked to the public. Milk, oil and other such products
are diluted and adulterated while they are being transported. All these thefts happen only because the
locking mechanism is designed in such a way as to provide the authority of entry to the person who has the
key. Nothing can be done to prevent theft if the person with that authority is corrupt.
We are proposing a locking mechanism for transport vehicles carrying valued goods where the
opening of the lock is triggered only by the complete fulllment of three factors, namely, the presence of the
locked entity in a geolocation fence, RFID authentication,the predened password and authentication
password from the owner or the authorized person.
This document describes the design of a vehicle accident alarm system using GSM and GPS technology. The system uses an accelerometer to detect if an accident has occurred, then sends alert messages via GSM to emergency contacts and tracks the vehicle's location using GPS to help rescuers locate the accident site quickly. The system architecture includes components like an ARM7 microcontroller, GPS and GSM modules, and an LCD display. The goal is to shorten emergency response times and save lives in the event of a vehicle accident.
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 .
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.
Design and implementation of vehicle tracking system using gpsAlexander Decker
This document describes the design and implementation of a vehicle tracking system using GPS. The system uses an in-vehicle unit with sensors and a GPS receiver to determine the vehicle's location, and a GSM/GPRS modem to transmit the location data via SMS or TCP/IP to a remote tracking server. The tracking server stores the location information in a database and makes it available through a web interface to authorized users. The system is intended to help curb vehicle theft by allowing owners to track a stolen vehicle and alert authorities.
11.design and implementation of vehicle tracking system using gpsAlexander Decker
This document summarizes a research paper on the design and implementation of a vehicle tracking system using GPS. The system uses an in-vehicle unit with sensors and a GPS receiver to track the location of the vehicle. The location data is transmitted to a remote tracking server using GSM/GPRS. The tracking server stores the location information in a database and makes it available online to authorized users. The system is intended to provide vehicle security features like anti-theft tracking and monitoring of door open/close status. The paper describes the hardware and software design of both the in-vehicle unit and tracking server.
This document describes a vehicle tracking and monitoring system that uses GPS, GSM, and a microcontroller to track vehicles in real-time. It consists of three main parts: a vehicle unit with a GPS/GSM modem that collects location data and sends it to a server, fixed base stations that receive and forward data to a data center, and a database and software that stores location information and allows users to view vehicle locations on digital maps via the internet. The system also includes modules to detect driver drowsiness using eye blink sensors, alert drivers to traffic signal violations and speed limits using RF technology, and trigger alerts if vehicle components are removed to prevent theft. The project report presenting this system is organized into five chapters covering introduction
Low Cost, Effective Solution for Monitoring, Controlling and Tracking of Rent...ijsrd.com
This document proposes a low-cost solution for monitoring, controlling, and tracking rented vehicles used in a vehicle sharing system. The system uses technologies like GPS, GSM, and a face detection system (FDS) to provide features such as user authentication, theft detection, collision detection, distance tracking, and remote vehicle control. A prototype was created using a microcontroller, GPS/GSM modules, sensors, and other hardware. It was able to successfully demonstrate the anti-fraud, monitoring, and control capabilities of the proposed vehicle sharing system.
Tracking and Recovery of the Vehicle using GPS and GSMIRJET Journal
This document describes a vehicle tracking and recovery system that uses GPS and GSM technologies. The system includes sensors that detect accidents and send alerts. It uses a microcontroller connected to a GPS module and GSM modem to track the vehicle's location and send emergency SMS messages with the coordinates to emergency contacts when an accident is detected. The system aims to reduce accident fatalities by quickly notifying emergency services of accidents and the vehicle's location to facilitate rescue. It provides real-time vehicle tracking and recovery capabilities to increase road safety.
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.
ADVANCED BIKE SECURITY SYSTEM USING GSM AND GPSEG TECHNOLOGIES
This document describes the design and development of an advanced bike security system using GSM and GPS technologies. The system is intended to prevent bike theft by tracking the location of a stolen bike and allowing the owner to remotely lock the engine. It consists of a microcontroller interfaced with a GSM module and GPS receiver. When a theft occurs, the GPS module sends the bike's coordinates via SMS to the owner's phone. The owner can then send a message to lock the engine. The system provides bike tracking, theft notification, and remote immobilization in a simple, low-cost package.
IRJET- GPS Based Vehicle Tracking and Monitoring System - A Solution for Tran...IRJET Journal
This document describes a GPS-based vehicle tracking and monitoring system using Arduino. The system uses a GPS module to obtain location data and a GSM module to send the location to authorized users via SMS. When a registered user texts the system, it replies with the vehicle's current latitude and longitude, which can be viewed on a map. The system is intended to help with vehicle security, tracking salespeople, and monitoring private drivers. It provides location updates every 10 seconds while the vehicle is moving.
The document describes a proposed vehicle black box system that uses an accelerometer, GPS, and GSM components for driver assistance and accident alert capabilities. The system is intended to automatically contact emergency services if an accident is detected by sending a short message with the vehicle's location. This would help reduce response times in remote areas. Additionally, the system could allow vehicle owners to remotely track or be alerted to theft attempts by calling or messaging the owner's phone. The proposed system aims to address issues with current vehicle security and response limitations after an accident occurs.
This document summarizes a research paper that proposes a vehicle black box system using sensors for driver assistance and accident alerts. The system would use an accelerometer, GPS, and GSM module to detect if an accident occurs. If an accident is detected, the system would send SMS messages with the vehicle's location to emergency contacts and services after a 1 minute delay. This would help provide faster emergency response. The document discusses the design of the system and algorithms for location tracking and distance calculation that would be used. It also reviews other related literature on using sensor data for accident analysis and surveillance.
ARM Based Vehicle Theft Control, Positioning and Collision Detection SystemIRJET Journal
This document describes an ARM-based vehicle theft control, positioning, and collision detection system. The system uses GPS and GSM modules connected to an ARM controller to provide theft prevention, accident detection, and live vehicle tracking. For theft prevention, a fingerprint module is used for authentication. In the event of an accident, an accelerometer sensor detects impacts and alerts emergency contacts if the accident is severe by sending SMS messages with the vehicle's GPS coordinates. If the vehicle is stolen, its live location can be tracked using the GPS module. The system aims to provide security against theft, notify emergency services faster in the event of an accident, and allow retrieval of a stolen vehicle.
ARM Based Vehicle Theft Control, Positioning and Collision Detection SystemIRJET Journal
This document describes an ARM-based vehicle theft control, positioning, and collision detection system. The system uses accelerometer, GPS, GSM, and fingerprint sensors with an ARM controller to detect vehicle accidents and theft. In the event of an accident, the system detects abnormal vehicle movement with the accelerometer and notifies emergency contacts by sending SMS messages with the vehicle's GPS coordinates. For theft prevention, the system requires fingerprint authentication and sounds an alarm if unauthorized fingerprints are detected, also sending SMS alerts. If the vehicle is stolen, owners can track its live location using the GPS module. The system aims to provide quick emergency assistance in accidents and increase vehicle security against theft.
IRJET- Car Obstacle Detection and Pollution Level Tracing using Node MCUIRJET Journal
This document describes a system that uses sensors installed in vehicles to detect obstacles and monitor pollution levels. The system uses an ultrasonic sensor to detect objects in front of the vehicle to avoid accidents. It also uses gas sensors to detect CO2 emitted from the vehicle. When obstacles are detected, the system automatically controls the vehicle speed to avoid collisions. The pollution levels are also monitored and notifications are sent if levels exceed standards. The system aims to reduce road accidents and monitor vehicle emissions using sensors and microcontrollers connected to the Internet of Things.
Vehicle tracking systems use GPS and other technologies to determine the location of vehicles. They are used widely for fleet management, transit systems, and as a theft deterrent for personal vehicles. There are three main types of GPS vehicle tracking: mobile phone-based systems which send location data every few minutes for a monthly fee; wireless passive systems which have a higher upfront cost but no monthly fees and only track location when near the base; and real-time satellite systems which provide constant location updates for a higher total cost. Vehicle tracking provides security benefits and can help recover stolen vehicles.
Smart theft detection of vehicles by GSM and GPS with fingerprint verificationIRJET Journal
The document describes a proposed smart vehicle theft detection system that uses GSM, GPS, Arduino, and fingerprint verification. The system aims to provide advanced security to prevent vehicle theft. It utilizes an Arduino microcontroller to manage system components including a GPS module to track location in real-time, a GSM module to send alerts to the owner, and a fingerprint sensor to authenticate the driver. The system is capable of delivering real-time alerts and location tracking to help owners monitor their vehicle and aid in recovery if stolen. The proposed system provides an effective solution to vehicle theft with advanced security features like fingerprint verification.
Traffic Detection System is an Android application that aims at determining the behavior of traffic in a particular location. It calculates the speed of the vehicle and the level of congestion or the amount of traffic is determined on the basis of the values of sensors. If any such obstruct found, then the driver is provided an option to send messages regarding high traffic to his/her friends. After a distinct number of repeated low speed and breaks, the location of the vehicle (latitude and longitude) send to a pre-specified contact (selected in case of traffic congestion) through an SMS. This application uses the features of the Global positioning system. The Latitude, as well as the longitude of the location where traffic jams are formed, is sent to the friends of the user. The Goggle map of the location also sends to the friends. It uses the SMS Manager a functionality of Android. The friends receiving the messages will thereby avoid taking the congested route and hence the level of traffic on the congested road will decrease, and the friends will reach the destination in comparatively less time.
Traffic Detection System is an Android application that aims at determining the behavior of traffic in a particular location. It calculates the speed of the vehicle and the level of congestion or the amount of traffic is determined on the basis of the values of sensors. If any such obstruct found, then the driver is provided an option to send messages regarding high traffic to his/her friends. After a distinct number of repeated low speed and breaks, the location of the vehicle (latitude and longitude) send to a pre-specified contact (selected in case of traffic congestion) through an SMS. This application uses the features of the Global positioning system. The Latitude, as well as the longitude of the location where traffic jams are formed, is sent to the friends of the user. The Goggle map of the location also sends to the friends. It uses the SMS Manager a functionality of Android. The friends receiving the messages will thereby avoid taking the congested route and hence the level of traffic on the congested road will decrease, and the friends will reach the destination in comparatively less time.
A GPS tracking system is a common way of getting real-time vehicle location data. GPS technology is often employed in modern car tracking systems, however other forms of autonomous vehicle location technologies can also be used. A GPS tracking system comprised of hardware, open-source software, a web server, and an easy-to-manage user interface via a web server with Google Map was presented. The goal of this project is to develop and build a hand-held wireless GPS tracking device that can be tracked remotely via the Internet. There are three parts to this research. A mobile device with GPS and a wireless Internet connection is the first component. Our hardware project, which contains an LCD, GPS, GSM, Arduino Uno, and sensor linked to service, is the second portion.
This document proposes a vehicle tracking and monitoring system using wireless technology like GPS and GSM to provide security, safety, and fleet management. The system tracks the vehicle's location through GPS and sends alerts by SMS. It also detects driver drowsiness using IR sensors and alerts the user, potentially slowing the vehicle. Additionally, it alerts users if they run a red traffic light based on RF sensors. The system aims to reduce costs and manpower needs for vehicle tracking while improving safety.
IRJET - Accident Prevention Control System and Detection of Lost KeyIRJET Journal
This document describes a project to develop an accident prevention and control system using sensors and a microcontroller, as well as a system to detect lost keys using GPS. The accident prevention system uses an ultrasonic sensor to measure distance to nearby objects, and alerts the driver or takes actions like disabling the ignition if distances become too small. If an accident still occurs, the system uses GPS to locate the coordinates and sends an SMS using GSM to emergency contacts. The lost key detection system inserts a GPS module into keys to track their location via a mobile phone app or web page if lost. The system is intended to reduce accidents and provide safety, while having low cost, simple design, and low power consumption.
IMPACT Silver is a pure silver zinc producer with over $260 million in revenue since 2008 and a large 100% owned 210km Mexico land package - 2024 catalysts includes new 14% grade zinc Plomosas mine and 20,000m of fully funded exploration drilling.
Anny Serafina Love - Letter of Recommendation by Kellen Harkins, MS.AnnySerafinaLove
This letter, written by Kellen Harkins, Course Director at Full Sail University, commends Anny Love's exemplary performance in the Video Sharing Platforms class. It highlights her dedication, willingness to challenge herself, and exceptional skills in production, editing, and marketing across various video platforms like YouTube, TikTok, and Instagram.
Understanding User Needs and Satisfying ThemAggregage
https://www.productmanagementtoday.com/frs/26903918/understanding-user-needs-and-satisfying-them
We know we want to create products which our customers find to be valuable. Whether we label it as customer-centric or product-led depends on how long we've been doing product management. There are three challenges we face when doing this. The obvious challenge is figuring out what our users need; the non-obvious challenges are in creating a shared understanding of those needs and in sensing if what we're doing is meeting those needs.
In this webinar, we won't focus on the research methods for discovering user-needs. We will focus on synthesis of the needs we discover, communication and alignment tools, and how we operationalize addressing those needs.
Industry expert Scott Sehlhorst will:
• Introduce a taxonomy for user goals with real world examples
• Present the Onion Diagram, a tool for contextualizing task-level goals
• Illustrate how customer journey maps capture activity-level and task-level goals
• Demonstrate the best approach to selection and prioritization of user-goals to address
• Highlight the crucial benchmarks, observable changes, in ensuring fulfillment of customer needs
The 10 Most Influential Leaders Guiding Corporate Evolution, 2024.pdfthesiliconleaders
In the recent edition, The 10 Most Influential Leaders Guiding Corporate Evolution, 2024, The Silicon Leaders magazine gladly features Dejan Štancer, President of the Global Chamber of Business Leaders (GCBL), along with other leaders.
Storytelling is an incredibly valuable tool to share data and information. To get the most impact from stories there are a number of key ingredients. These are based on science and human nature. Using these elements in a story you can deliver information impactfully, ensure action and drive change.
At Techbox Square, in Singapore, we're not just creative web designers and developers, we're the driving force behind your brand identity. Contact us today.
Event Report - SAP Sapphire 2024 Orlando - lots of innovation and old challengesHolger Mueller
Holger Mueller of Constellation Research shares his key takeaways from SAP's Sapphire confernece, held in Orlando, June 3rd till 5th 2024, in the Orange Convention Center.
Structural Design Process: Step-by-Step Guide for BuildingsChandresh Chudasama
The structural design process is explained: Follow our step-by-step guide to understand building design intricacies and ensure structural integrity. Learn how to build wonderful buildings with the help of our detailed information. Learn how to create structures with durability and reliability and also gain insights on ways of managing structures.
buy old yahoo accounts buy yahoo accountsSusan Laney
As a business owner, I understand the importance of having a strong online presence and leveraging various digital platforms to reach and engage with your target audience. One often overlooked yet highly valuable asset in this regard is the humble Yahoo account. While many may perceive Yahoo as a relic of the past, the truth is that these accounts still hold immense potential for businesses of all sizes.
At Techbox Square, in Singapore, we're not just creative web designers and developers, we're the driving force behind your brand identity. Contact us today.
The Evolution and Impact of OTT Platforms: A Deep Dive into the Future of Ent...ABHILASH DUTTA
This presentation provides a thorough examination of Over-the-Top (OTT) platforms, focusing on their development and substantial influence on the entertainment industry, with a particular emphasis on the Indian market.We begin with an introduction to OTT platforms, defining them as streaming services that deliver content directly over the internet, bypassing traditional broadcast channels. These platforms offer a variety of content, including movies, TV shows, and original productions, allowing users to access content on-demand across multiple devices.The historical context covers the early days of streaming, starting with Netflix's inception in 1997 as a DVD rental service and its transition to streaming in 2007. The presentation also highlights India's television journey, from the launch of Doordarshan in 1959 to the introduction of Direct-to-Home (DTH) satellite television in 2000, which expanded viewing choices and set the stage for the rise of OTT platforms like Big Flix, Ditto TV, Sony LIV, Hotstar, and Netflix. The business models of OTT platforms are explored in detail. Subscription Video on Demand (SVOD) models, exemplified by Netflix and Amazon Prime Video, offer unlimited content access for a monthly fee. Transactional Video on Demand (TVOD) models, like iTunes and Sky Box Office, allow users to pay for individual pieces of content. Advertising-Based Video on Demand (AVOD) models, such as YouTube and Facebook Watch, provide free content supported by advertisements. Hybrid models combine elements of SVOD and AVOD, offering flexibility to cater to diverse audience preferences.
Content acquisition strategies are also discussed, highlighting the dual approach of purchasing broadcasting rights for existing films and TV shows and investing in original content production. This section underscores the importance of a robust content library in attracting and retaining subscribers.The presentation addresses the challenges faced by OTT platforms, including the unpredictability of content acquisition and audience preferences. It emphasizes the difficulty of balancing content investment with returns in a competitive market, the high costs associated with marketing, and the need for continuous innovation and adaptation to stay relevant.
The impact of OTT platforms on the Bollywood film industry is significant. The competition for viewers has led to a decrease in cinema ticket sales, affecting the revenue of Bollywood films that traditionally rely on theatrical releases. Additionally, OTT platforms now pay less for film rights due to the uncertain success of films in cinemas.
Looking ahead, the future of OTT in India appears promising. The market is expected to grow by 20% annually, reaching a value of ₹1200 billion by the end of the decade. The increasing availability of affordable smartphones and internet access will drive this growth, making OTT platforms a primary source of entertainment for many viewers.
Zodiac Signs and Food Preferences_ What Your Sign Says About Your Tastemy Pandit
Know what your zodiac sign says about your taste in food! Explore how the 12 zodiac signs influence your culinary preferences with insights from MyPandit. Dive into astrology and flavors!