This is an RFID based automatic license and RC book verifciation system designed for the protection and authorization of vehicles. It is widely employed for the theft protection of the vehicles.
Automatic toll collection system (presentation)Rohan Kale
ATCS is an Automated Toll Collection System used for collecting tax automatically. A vehicle will hold an RFID tag. This tag is nothing but unique identification number assigned. This will be assigned by RTO or traffic governing authority. In accordance with this number we will store, all basic information as well as the amount he has paid in advance for the TOLL collection. Reader will be strategically placed at toll collection center. Whenever the vehicle passes the toll Plaza, the tax amount will be deducted from his prepaid balance. New balance will be updated. Incase if one has insufficient balance, his updated balance will be negative one. To tackle this problem, we are alarming a sound, which will alert the authority that this vehicle doesn’t have sufficient balance and that particular vehicle can be trapped. As vehicles don’t have to stop in a queue, it assures time saving, fuel conservation and also contributing in saving of money.
This document provides an overview of RFID (radio-frequency identification) technology. It discusses what RFID is, the history and components of RFID tags, the different types of tags (passive vs. active), how RFID works, applications of RFID such as supply chain management, healthcare, passports, and livestock tracking, initiatives in India, and conclusions about RFID's value. RFID allows wireless identification and tracking of objects using radio waves to transfer data.
The document describes a proposed smart trolley project. The project aims to reduce billing time in supermarkets by allowing for self-checkout using barcode scanners on a smart trolley. The trolley would contain a Raspberry Pi, barcode readers, display, and connect to the store's system wirelessly for billing. It provides background on current tedious billing processes, then outlines the proposed hardware and software components of the smart trolley, including a Raspberry Pi, barcode scanners, battery, and Android application.
My presentation explores how RFID system works and describes briefly about history of RFID, active & passive tags, modes of transmission of data and applications
The document discusses an electronic toll collection system that uses radio frequency identification (RFID) technology. It describes the key components of RFID tags and readers that allow the system to automatically identify vehicles and deduct toll fares electronically. The system uses RFID tags attached to vehicles that are read by roadside readers to identify vehicles and classify them for toll processing without needing to stop. Violation enforcement is also discussed to handle cases where vehicles do not have proper tags installed.
RFID based smart shopping cart and billing systemlaharipothula
To make the shopping easy by automated billing at the shopping mall/ super maeket. This module mainly cocnsists of Arduino, RFID tags & reader and zigbee module.
RFID (radio frequency identification) allows objects to be identified using radio waves transmitted from tags attached to objects. RFID systems consist of tags, readers, and an antenna. Tags can be passive (powered by reader), active (internal battery), or semi-passive (battery assisted). Common applications include supply chain management, livestock tagging, toll payment, and electronic passports. While RFID provides advantages like wireless data transfer and ability to work in harsh environments, concerns around privacy, security, and lack of standards remain open challenges.
Automatic toll collection system (presentation)Rohan Kale
ATCS is an Automated Toll Collection System used for collecting tax automatically. A vehicle will hold an RFID tag. This tag is nothing but unique identification number assigned. This will be assigned by RTO or traffic governing authority. In accordance with this number we will store, all basic information as well as the amount he has paid in advance for the TOLL collection. Reader will be strategically placed at toll collection center. Whenever the vehicle passes the toll Plaza, the tax amount will be deducted from his prepaid balance. New balance will be updated. Incase if one has insufficient balance, his updated balance will be negative one. To tackle this problem, we are alarming a sound, which will alert the authority that this vehicle doesn’t have sufficient balance and that particular vehicle can be trapped. As vehicles don’t have to stop in a queue, it assures time saving, fuel conservation and also contributing in saving of money.
This document provides an overview of RFID (radio-frequency identification) technology. It discusses what RFID is, the history and components of RFID tags, the different types of tags (passive vs. active), how RFID works, applications of RFID such as supply chain management, healthcare, passports, and livestock tracking, initiatives in India, and conclusions about RFID's value. RFID allows wireless identification and tracking of objects using radio waves to transfer data.
The document describes a proposed smart trolley project. The project aims to reduce billing time in supermarkets by allowing for self-checkout using barcode scanners on a smart trolley. The trolley would contain a Raspberry Pi, barcode readers, display, and connect to the store's system wirelessly for billing. It provides background on current tedious billing processes, then outlines the proposed hardware and software components of the smart trolley, including a Raspberry Pi, barcode scanners, battery, and Android application.
My presentation explores how RFID system works and describes briefly about history of RFID, active & passive tags, modes of transmission of data and applications
The document discusses an electronic toll collection system that uses radio frequency identification (RFID) technology. It describes the key components of RFID tags and readers that allow the system to automatically identify vehicles and deduct toll fares electronically. The system uses RFID tags attached to vehicles that are read by roadside readers to identify vehicles and classify them for toll processing without needing to stop. Violation enforcement is also discussed to handle cases where vehicles do not have proper tags installed.
RFID based smart shopping cart and billing systemlaharipothula
To make the shopping easy by automated billing at the shopping mall/ super maeket. This module mainly cocnsists of Arduino, RFID tags & reader and zigbee module.
RFID (radio frequency identification) allows objects to be identified using radio waves transmitted from tags attached to objects. RFID systems consist of tags, readers, and an antenna. Tags can be passive (powered by reader), active (internal battery), or semi-passive (battery assisted). Common applications include supply chain management, livestock tagging, toll payment, and electronic passports. While RFID provides advantages like wireless data transfer and ability to work in harsh environments, concerns around privacy, security, and lack of standards remain open challenges.
This document proposes a smart shopping system using RFID technology that can automatically generate bills. Key features include:
1) RFID antennas will detect items in a shopping basket and automatically generate a bill using RFID tags on each product.
2) The system supports both registered users with smart cards for payment from preloaded balances as well as non-registered users who must pay at checkout.
3) Product details like codes, names, prices are stored in a database and the system has features for modifying, deleting, and generating automatic bills from detected inventory.
This document describes an RFID and GSM based attendance system. The system uses RFID tags and a reader to track when students arrive and leave school/college and sends SMS alerts to parents. It consists of hardware components like a microcontroller, RFID reader, GSM modem and software like Keil Compiler. When a student's RFID tag is scanned, the time is logged to an EEPROM and an SMS is sent to notify parents. The system aims to save time and keep parents informed of their child's daily attendance through SMS messages in real-time.
The document describes an automatic toll collection system using RFID technology. The system aims to reduce waiting times at toll queues, provide an easy payment method for travelers, and reduce illegal toll gate entry. The system works by using passive RFID tags attached to vehicles that are read by antennas at the toll gate. When a vehicle approaches with a tag, the tag information is wirelessly transmitted to a central database. If the account is in good standing, the toll is deducted from the driver's prepaid account and a green light lets the vehicle pass through without stopping. The automatic RFID toll collection system provides a contactless and paperless way to pay tolls and helps reduce traffic at toll gates.
Automation of shopping cart to ease queue in malls by using RFIDSudher Sun
RFID technology is proposed to automate the shopping cart and billing process in malls. The current barcode system requires line of sight scanning and is slow. The proposed system uses RFID tags embedded in products that can be automatically read by an RFID reader in the cart from a distance. As shoppers add items to their cart, the tags are read and the items and running total are displayed. This allows for a more efficient checkout where the total is already known without additional scanning. The system architecture uses an RFID reader, microcontroller, Zigbee for wireless communication, and an LCD for display. Benefits include simplified billing, increased speed, and an improved overall shopping experience.
RFID BASED SECURITY ACCESS CONTROL SYSTEMavinash yada
This document presents a project on an RFID-based security access control system. It includes sections that describe what RFID cards are, the invention of RFID technology, different types of RFID cards, a block diagram of the system components, how the power supply works, descriptions of components like the LCD display and buzzer, how access is controlled using RFID reader and motor, the software used, security features, benefits, and future applications. It aims to develop a system that can reliably identify users and control access to improve safety and security.
RFID technology allows for automatic identification of movable items using radio waves. BCDS is an Australian company that has implemented various RFID solutions including asset tracking, visitor tracking, animal tracking, healthcare solutions, and more. RFID systems consist of tags that can be attached to items and readers that can read tag data remotely without line of sight. RFID finds many uses including tracking animals, manufacturing/warehousing, defense applications, and document tracking. The presentation discusses these applications and how RFID is playing a role in smart technologies.
This document discusses the programming technologies and interconnect architectures used in different FPGA devices. It covers antifuse-based OTP technologies used in Actel FPGAs, SRAM-based reprogrammable technologies used in Xilinx FPGAs, and EPROM/EEPROM technologies used in Altera CPLDs. It also describes the segmented channel routing interconnect architecture used in Actel FPGAs and the LCA architecture used in Xilinx FPGAs.
This document is a project report submitted for the Bachelor of Technology degree in Electronics and Communication Engineering. It presents the development of an electronic toll collection system using radio frequency identification (RFID) technology. The proposed RFID-based system uses tags mounted on vehicle windshields that can be read by RFID readers to automatically process toll payments. This eliminates the need for manual ticket payments and collections, allowing more efficient tolling while reducing traffic and potential human errors. The report is submitted by three students and supervised by an associate professor at the Dr B R Ambedkar National Institute of Technology in Jalandhar, India.
The document discusses electronic toll collection (ETC) systems. The key components of an ETC system include RFID tags mounted on vehicles, readers that communicate with the tags, and in-lane computers. RFID tags contain identification information and payment details. Readers detect tags as vehicles approach and verify payment. In-lane computers then deduct the correct toll from the account and open gates to allow passage. ETC systems allow cashless tolling, reduce congestion at toll plazas, and provide a more convenient driving experience.
This document describes an RFID-based smart attendance system. It begins by explaining what RFID is and how it works, transmitting data between a tag and reader using radio frequencies. It then discusses how RFID technology can be used to automatically take student attendance by having each student carry an RFID tag scanned by a reader when entering the classroom. The document outlines the hardware and software requirements and provides schematics of the circuit. It describes the process of a student swiping their tag by the reader, which transmits the data to a microcontroller to check against a database and mark their attendance on an LCD display. Advantages include reducing proxy attendance.
This document describes an RFID-based student attendance system. Key points:
1. The system uses RFID tags assigned to each student and an RFID reader to automatically record attendance without manual roll calls.
2. When a student holds their RFID tag near the reader, it detects the unique ID and records the student details and attendance in a database.
3. The system aims to solve inefficiencies in traditional paper-based attendance tracking by automating the process and eliminating manual data entry.
The document discusses RFID (radio-frequency identification) technology and its applications. It describes what RFID is, how RFID tags work, and examples of RFID being used for identification of objects, tracking objects in supply chains, access control, contactless payment, and inferring human activities through interactions with tagged objects. The document also provides an example of using an RFID reader and tags in a Java program to detect tagged objects.
This document describes an RFID-based attendance system. It includes an introduction to RFID technology and how it can be used for attendance tracking. The system uses RFID reader and tags to identify users and mark their attendance in a database on a microcontroller. When a user's RFID tag is detected, the microcontroller checks its database and increments the attendance count for that user. The document outlines the hardware, software, and power requirements and provides block diagrams to illustrate how the system works.
The document describes a smart car parking system using IoT. The system uses sensors like IR sensors and a wifi module connected to an Arduino board to detect available parking spots. This information is sent to a mobile app to guide drivers to empty spots, reducing congestion and emissions. The system's advantages include shorter wait times, fuel savings, and directing users to open spaces. It has applications in malls, restaurants, and theaters to more efficiently manage parking.
Telecommunication line training report Indian RailwaysSURAJKMAURYA
Industrial training report On telecommunication line Indian railways
for the partial fulfillment of B.tech Degree in Electronics and communication Engineering
Rfid technology next generation application solutionsashtopustech
Astopous Technologies is one of the fastest growing identification & security solutions providers .We have best & high performance active and passive RFID technology solutions,for live tracking vehicles and student care in school bus,live stock and health care people tracking ,retail and assets mgmt.
This document describes an RFID-based student attendance system. It aims to easily and efficiently track student attendance by having each student carry an RFID tag. When a student's tag is scanned by the RFID reader, their attendance will be logged as present or absent in the Arduino microcontroller. Ultrasonic sensors also help detect if students are entering or leaving the classroom. This automated attendance system could replace manual attendance tracking and provide benefits like time savings, easy control and reliability for universities.
RFID Shopping system uses RFID tags to identify products while providing automated shopping experience. The shopping system also provides integrated data mining techniques to facilitate management with real time data with product sales and inventory tracking. The system consists of smart cart system which is attached to the customer cart. The smart cart system also includes intercom module, which facilitates the customer to talk directly to customer service without having to search for one. All the data processing is provided by the central server system which handles all the carts in the system.
This document describes an RFID-based vehicle parking system. The system uses RFID tags placed on vehicles and an RFID reader located in the parking area. A microcontroller senses when vehicles enter and exit using sensors. It controls entry and exit barriers using an H-bridge circuit and DC motors. The number of available parking spaces and account balances stored on RFID tags are displayed on an LCD screen. When a vehicle enters, the tag is read by the reader and money is deducted from the tag balance. The system aims to efficiently manage vehicle parking and reduce traffic issues using RFID technology.
Device Verification and SafetyUsing RFID TagIJSRED
This document summarizes a research paper on a device verification and safety system for cars using RFID tags. The system uses an RFID tag and reader to identify unauthorized access to the car. A microcontroller uses an ID and password entered by the person in the car to control the engine starting. A GPS system helps the owner locate a stolen car by tracking its location. The system is built with an ATmega16 controller and uses SMS messaging to transmit intruder data and alerts to the owner. It aims to merge vehicle security, tracking, and remote control capabilities.
This document proposes a smart shopping system using RFID technology that can automatically generate bills. Key features include:
1) RFID antennas will detect items in a shopping basket and automatically generate a bill using RFID tags on each product.
2) The system supports both registered users with smart cards for payment from preloaded balances as well as non-registered users who must pay at checkout.
3) Product details like codes, names, prices are stored in a database and the system has features for modifying, deleting, and generating automatic bills from detected inventory.
This document describes an RFID and GSM based attendance system. The system uses RFID tags and a reader to track when students arrive and leave school/college and sends SMS alerts to parents. It consists of hardware components like a microcontroller, RFID reader, GSM modem and software like Keil Compiler. When a student's RFID tag is scanned, the time is logged to an EEPROM and an SMS is sent to notify parents. The system aims to save time and keep parents informed of their child's daily attendance through SMS messages in real-time.
The document describes an automatic toll collection system using RFID technology. The system aims to reduce waiting times at toll queues, provide an easy payment method for travelers, and reduce illegal toll gate entry. The system works by using passive RFID tags attached to vehicles that are read by antennas at the toll gate. When a vehicle approaches with a tag, the tag information is wirelessly transmitted to a central database. If the account is in good standing, the toll is deducted from the driver's prepaid account and a green light lets the vehicle pass through without stopping. The automatic RFID toll collection system provides a contactless and paperless way to pay tolls and helps reduce traffic at toll gates.
Automation of shopping cart to ease queue in malls by using RFIDSudher Sun
RFID technology is proposed to automate the shopping cart and billing process in malls. The current barcode system requires line of sight scanning and is slow. The proposed system uses RFID tags embedded in products that can be automatically read by an RFID reader in the cart from a distance. As shoppers add items to their cart, the tags are read and the items and running total are displayed. This allows for a more efficient checkout where the total is already known without additional scanning. The system architecture uses an RFID reader, microcontroller, Zigbee for wireless communication, and an LCD for display. Benefits include simplified billing, increased speed, and an improved overall shopping experience.
RFID BASED SECURITY ACCESS CONTROL SYSTEMavinash yada
This document presents a project on an RFID-based security access control system. It includes sections that describe what RFID cards are, the invention of RFID technology, different types of RFID cards, a block diagram of the system components, how the power supply works, descriptions of components like the LCD display and buzzer, how access is controlled using RFID reader and motor, the software used, security features, benefits, and future applications. It aims to develop a system that can reliably identify users and control access to improve safety and security.
RFID technology allows for automatic identification of movable items using radio waves. BCDS is an Australian company that has implemented various RFID solutions including asset tracking, visitor tracking, animal tracking, healthcare solutions, and more. RFID systems consist of tags that can be attached to items and readers that can read tag data remotely without line of sight. RFID finds many uses including tracking animals, manufacturing/warehousing, defense applications, and document tracking. The presentation discusses these applications and how RFID is playing a role in smart technologies.
This document discusses the programming technologies and interconnect architectures used in different FPGA devices. It covers antifuse-based OTP technologies used in Actel FPGAs, SRAM-based reprogrammable technologies used in Xilinx FPGAs, and EPROM/EEPROM technologies used in Altera CPLDs. It also describes the segmented channel routing interconnect architecture used in Actel FPGAs and the LCA architecture used in Xilinx FPGAs.
This document is a project report submitted for the Bachelor of Technology degree in Electronics and Communication Engineering. It presents the development of an electronic toll collection system using radio frequency identification (RFID) technology. The proposed RFID-based system uses tags mounted on vehicle windshields that can be read by RFID readers to automatically process toll payments. This eliminates the need for manual ticket payments and collections, allowing more efficient tolling while reducing traffic and potential human errors. The report is submitted by three students and supervised by an associate professor at the Dr B R Ambedkar National Institute of Technology in Jalandhar, India.
The document discusses electronic toll collection (ETC) systems. The key components of an ETC system include RFID tags mounted on vehicles, readers that communicate with the tags, and in-lane computers. RFID tags contain identification information and payment details. Readers detect tags as vehicles approach and verify payment. In-lane computers then deduct the correct toll from the account and open gates to allow passage. ETC systems allow cashless tolling, reduce congestion at toll plazas, and provide a more convenient driving experience.
This document describes an RFID-based smart attendance system. It begins by explaining what RFID is and how it works, transmitting data between a tag and reader using radio frequencies. It then discusses how RFID technology can be used to automatically take student attendance by having each student carry an RFID tag scanned by a reader when entering the classroom. The document outlines the hardware and software requirements and provides schematics of the circuit. It describes the process of a student swiping their tag by the reader, which transmits the data to a microcontroller to check against a database and mark their attendance on an LCD display. Advantages include reducing proxy attendance.
This document describes an RFID-based student attendance system. Key points:
1. The system uses RFID tags assigned to each student and an RFID reader to automatically record attendance without manual roll calls.
2. When a student holds their RFID tag near the reader, it detects the unique ID and records the student details and attendance in a database.
3. The system aims to solve inefficiencies in traditional paper-based attendance tracking by automating the process and eliminating manual data entry.
The document discusses RFID (radio-frequency identification) technology and its applications. It describes what RFID is, how RFID tags work, and examples of RFID being used for identification of objects, tracking objects in supply chains, access control, contactless payment, and inferring human activities through interactions with tagged objects. The document also provides an example of using an RFID reader and tags in a Java program to detect tagged objects.
This document describes an RFID-based attendance system. It includes an introduction to RFID technology and how it can be used for attendance tracking. The system uses RFID reader and tags to identify users and mark their attendance in a database on a microcontroller. When a user's RFID tag is detected, the microcontroller checks its database and increments the attendance count for that user. The document outlines the hardware, software, and power requirements and provides block diagrams to illustrate how the system works.
The document describes a smart car parking system using IoT. The system uses sensors like IR sensors and a wifi module connected to an Arduino board to detect available parking spots. This information is sent to a mobile app to guide drivers to empty spots, reducing congestion and emissions. The system's advantages include shorter wait times, fuel savings, and directing users to open spaces. It has applications in malls, restaurants, and theaters to more efficiently manage parking.
Telecommunication line training report Indian RailwaysSURAJKMAURYA
Industrial training report On telecommunication line Indian railways
for the partial fulfillment of B.tech Degree in Electronics and communication Engineering
Rfid technology next generation application solutionsashtopustech
Astopous Technologies is one of the fastest growing identification & security solutions providers .We have best & high performance active and passive RFID technology solutions,for live tracking vehicles and student care in school bus,live stock and health care people tracking ,retail and assets mgmt.
This document describes an RFID-based student attendance system. It aims to easily and efficiently track student attendance by having each student carry an RFID tag. When a student's tag is scanned by the RFID reader, their attendance will be logged as present or absent in the Arduino microcontroller. Ultrasonic sensors also help detect if students are entering or leaving the classroom. This automated attendance system could replace manual attendance tracking and provide benefits like time savings, easy control and reliability for universities.
RFID Shopping system uses RFID tags to identify products while providing automated shopping experience. The shopping system also provides integrated data mining techniques to facilitate management with real time data with product sales and inventory tracking. The system consists of smart cart system which is attached to the customer cart. The smart cart system also includes intercom module, which facilitates the customer to talk directly to customer service without having to search for one. All the data processing is provided by the central server system which handles all the carts in the system.
This document describes an RFID-based vehicle parking system. The system uses RFID tags placed on vehicles and an RFID reader located in the parking area. A microcontroller senses when vehicles enter and exit using sensors. It controls entry and exit barriers using an H-bridge circuit and DC motors. The number of available parking spaces and account balances stored on RFID tags are displayed on an LCD screen. When a vehicle enters, the tag is read by the reader and money is deducted from the tag balance. The system aims to efficiently manage vehicle parking and reduce traffic issues using RFID technology.
Device Verification and SafetyUsing RFID TagIJSRED
This document summarizes a research paper on a device verification and safety system for cars using RFID tags. The system uses an RFID tag and reader to identify unauthorized access to the car. A microcontroller uses an ID and password entered by the person in the car to control the engine starting. A GPS system helps the owner locate a stolen car by tracking its location. The system is built with an ATmega16 controller and uses SMS messaging to transmit intruder data and alerts to the owner. It aims to merge vehicle security, tracking, and remote control capabilities.
IRJET - Automatic Tollgate Control System using Microcontroller and RFIDIRJET Journal
This document describes an automatic tollgate control system using RFID (radio-frequency identification) technology and a microcontroller. The system uses RFID tags attached to vehicles and RFID readers located at toll plazas to automatically identify vehicles and deduct toll fares from pre-paid accounts. If a tag is valid and has sufficient funds, the toll is deducted and the gate opens. If not valid or funds are insufficient, messages are displayed or sent by GSM to notify the driver to recharge. The system aims to automate toll collection and reduce traffic congestion compared to manual systems. Key components include RFID tags and readers, a microcontroller, LCD display, motor driver, DC motor, proximity sensors and a
Parking Lot Security System using RFID Technologyijtsrd
Radio Frequency Identification RFID technology is widely used in various applications such as attendance system, tracking system, monitoring system or parking system. In this paper, the Parking Lot Security System using RFID technology and embedded technology is presented. In conventional parking system, manual entrance system is applied that permission must be requested from the security guard to access the premise. Therefore, a security guard has to be hired to monitor the premise. In addition, the security guards need to monitor all movement of the vehicle that enters or leave the premise. As a result, the unauthorized vehicle can easily access the premise. To address this problem, the proposed system which can control a vehicle's movement that enters or leave the specific area or place by scanning the RFID tag has been implemented. The potential benefit is it can improve security for both security guards and users. Besides that, this parking system can facilitate access control for users and improve traffic flow and reduce traffic jams. Dr. Thida Aung "Parking Lot Security System using RFID Technology" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26512.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/26512/parking-lot-security-system-using-rfid-technology/dr-thida-aung
In this project “RFID based Car Parking System” we have shown the concept of an automatic car parking system. As in the modern world everything is going automatic we have built a system which will automatically sense the entry and exit of cars through the gate and then display the number of cars in the parking lot.
Check-ins and check-outs will be handled in a fast manner without having to stop the cars so that traffic jam problem will be avoided during these processes. Since there won't be any waiting during check-ins and check-outs the formation of emission gas as a result of such waiting will be avoided. Therefore, by this project we develop a parking system for an organization to have automated parking system for making best use of space, decreasing the man power and providing authentication for the vehicles from avoiding the theft.
Even we can set a maximum capacity of cars .We have developed a microcontroller which is used to sense the movement of cars and depending upon whether there is a capacity of cars to enter, it either opens the gate or not. It is also possible to open a gate when any car enters in the parking lot or close the door when a car exits from the parking lot with help of RFID.
There are two sets of sensors: one on the first gate (entry gate) and one on the second gate (exit gate). When a car arrives at the door the microcontroller receives the signal from the entry sensors and then checks whether there is a capacity of cars to be accommodated. Simultaneously it will also display the number of cars present in the parking lot on a LCD screen and also opens the gate. When a car moves out of the parking area the microcontroller reduces the count displayed accordingly and also closes the gate .The sensing of entry and exit of cars is done with the help of Infrared transmitters and receivers. Before the door the Infrared transmitter is mounted on one side and the receiver is placed directly in front of the transmitter across the door. When a car arrives the Infrared beam is blocked by the car and the receiver is devoid of Infrared rays and its output changes. This change in output is sensed by the microcontroller and accordingly it increments the count and opens the door if there is some capacity. The procedure for the exit of the cars is similar as the entry.
RFID is the one of the technology that is useful in various ways. RFID eases the access and ensures safety to greater extents. The Radio Frequency Identification technique consists of reader and tag which is called as RFID reader and RFID tag. The RFID tag will contain electronically stored data. The reader is used to retrieve the information in order to track or access or to identify the object. The RFID tag will be attached to objects, animals and with people to track and find them. Identification and tracking are done using radio waves.
IRJET- IoT Based E-Challan Automation for RTO using RFIDIRJET Journal
This document proposes an IOT-based system to automate traffic violation detection and e-challaning using RFID. The system would attach RFID tags to vehicles containing owner details. Sensors at traffic signals would detect if vehicles cross red lights and automatically issue e-challans by SMS, updating the RTO database. This would minimize manual enforcement efforts, encourage following traffic rules, and reduce corruption by tracking penalty collection. The system aims to increase road safety by automatically penalizing traffic violators.
NephSystem RFID Parking solution provides a faster more secured and convenient parking experience. It can help to solve those old or sophisticated parking management issues such as manual vehicle checking, very short card detection distance or waiting in long queue, etc.
Automated and unmaned parking system using rfid technology by samsam zion
This document discusses an automated and unmanned parking system using RFID technology. It proposes using RFID readers, labels, computers, barriers and software as the main components to manage parking lots located throughout a city. The software would handle management, control, transaction reporting and operation tasks. Vehicles would check in and out of parking lots using RFID readers and labels at the barriers, reducing personnel costs. The system would consist of RFID tags, a transceiver and antenna to wirelessly read and write data to tags as vehicles enter and exit lots.
IRJET - Vehicle Signal Breaking Alert SystemIRJET Journal
This document summarizes a research paper on a vehicle signal breaking alert system. The proposed system uses RFID tags situated on vehicles and sensors to automatically detect when a vehicle breaks a traffic signal. When a signal is broken, the system captures the vehicle's number plate using its RFID tag. It then compares the vehicle ID and number plate to records in a database to obtain owner details. If the ID and number plate match database records, a message is displayed saying "authorized person", otherwise "unauthorized person". For unauthorized vehicles that break signals, the system has the ability to send fine details directly to the registered owner's address on file with the RTO (Regional Transport Office). The goal is to help reduce traffic violations and accidents by
This document describes a proposed smart parking system for metropolitan areas that uses RFID technology. The system includes RFID readers, tags, barriers, and a centralized database. Vehicle owners purchase RFID tags, and vehicle information is stored in the database. When a tagged vehicle enters a parking lot, the RFID reader scans the tag and checks the vehicle information and parking history in the database. If authorized, the barrier lifts and check-in information is recorded. When the vehicle exits, the tag is scanned again and check-out information is recorded. This allows the system to monitor vehicle movements between lots and charge fines if proper check-out procedures are not followed. The system aims to automate parking lot management and provide benefits like reduced
This document describes a proposed smart traffic management system that uses RFID technology to automatically generate e-challans for vehicles that jump red lights. The system involves fitting vehicles with RFID tags and placing RFID readers at traffic signals linked to a NodeMCU. When a vehicle crosses the signal during a red light, the reader will detect the RFID tag and send the vehicle information to the NodeMCU to automatically generate an e-challan for the offender without human intervention. The proposed system aims to reduce traffic violations and accidents by automating the challan process compared to existing methods that rely on traffic police or CCTV cameras.
Design of intelligent transport related issue system based on arm7eSAT Journals
Abstract Now-a-days mode of transportation playing a major role in transport related problems. Every day millions of vehicles are passing through roads, mainly in this transport related issues Time, safety and efficiency are the major factors why because mode of transportation plays an important role in urbanization. Through this paper integrated solution has been offered to the transport related issues based on ARM7. Hence ARM7 is the core which has hardware modules such as RFID,GSM and SPEED SENSOR(split counter) to handle the new transport related problems viz., special zone(school zones, hospital zones, army zones) ,toll gate control, parking slot management and traffic rule violation control are explained in this paper. A professional exploitation of communication link between RF Modems over a wireless channel to facilitate vehicle monitoring, vehicle verification and automated toll collection on highways is proposed Keywords: GSM, IR SENSOR, RFIDTAG, RFID READER, SPEED SENSOR (SPLIT COUNTER)
Electronic Toll Tax collection system in india Deepak Chouhan
This document discusses electronic toll collection (ETC) systems. It begins by introducing the motivation for ETC to reduce congestion at toll plazas. It then describes the components of an ETC system, including RFID tags, readers, and back-end systems. The core technology discussed is RFID, which allows for automatic vehicle identification and payment processing. The document outlines how ETC systems work, their benefits like reduced time and fuel costs, and applications including automated tolling and parking. It concludes by discussing India's FASTag program and the potential of ETC systems to improve traffic flow.
Smart shopping trolley using rfid and remote controllingPranav Veerani
This document describes a smart shopping trolley project that uses RFID technology to automatically scan items placed in the trolley and display the running bill total. The trolley can also be remotely controlled to help elderly or disabled shoppers. Main components include an RFID reader/writer, microcontroller, LCD display, motor driver and remote control module. The system is intended to reduce checkout times and provide assistance to users. Future enhancements could include an interactive display showing item locations and a remote control system using computer vision.
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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.
IRJET- Automatic Gate Control and Parking System using AVR ControllerIRJET Journal
This document describes an automatic gate control and parking system that uses an AVR controller. The system uses RFID technology and IR sensors to detect available parking slots and control access. RFID reads tags on vehicles to verify user information and identify vehicles. IR sensors monitor slot occupancy. The AVR controller processes this input and controls a gate motor via signals. It aims to reduce time spent finding parking and increase security by automating entry and slot detection while displaying availability. The system was designed and implemented with an AVR, RFID module, IR sensors, motor driver, and display.
Two technologies for automatic number plate recognition, RFID vs ANPR technology.
The following compares two main automatic number-plate recognition technologies, RFID vs ANPR in six aspects: resource allocation, detection rate, data accuracy, environmental tolerance, multi-channel processing, and security.
Security is one of the key features of automated vehicle identification systems, especially in the tollhouse and parking lot charging business.
What is ANPR?
ANPR is an automatic number plate recognition system.
Today, automatic number plate recognition systems (ANPRs) are also commonly used to identify vehicles, but people are paying more attention to two aspects of ANPR. One is the high error rate of automatic vehicle recognition, and the other is the government in ANPR technology spending.
Applying radio frequency identification technology to vehicle identification systems can solve the technical and economic problems faced by automatic vehicle identification systems in a safer and more economical way.
The RFID system is a proven asset tracking technology. The highlight of an RFID system is that it allows for contactless tracking
within a few meters, making it ideal for tracking and transacting with moveable assets or vehicles. RFIDs are used for toll
collection, parking fees collection, and track containers across the globe by leveraging contactless technology. Developed and
developing countries are embracing this technology in order to decrease traffic bottlenecks and achieve seamless vehicle
movement. Recently, the government of India has mandated the use of RFID tags (FASTags) on all vehicles to automate toll
collection, every vehicle in the country will have a FASTag.
There are 566 toll plazas on the national highways of India, excluding state highways. These toll plazas act as a bottleneck in
traffic during peak times, the long queue of vehicles is a problem for both public and toll collectors. These queues cost people
precious time, fuel, money, and health (long traffic causes pollution). Truck delays in toll plazas cost the Indian economy 60,000
crores each year, according to the joint research undertaken by the Transport Corporation of India and IIM Kolkata. To fight
these problems, in 2014 Ministry of transportation began implementing Electronic Toll Collection (ETC) system in India.
ETC is an electronic payment system that allows drivers to pay the toll without stopping vehicles at the toll booth. The
technology will eventually decongest toll plazas while also improving the government's transparency in toll collection. The
Hon'ble Minister of Transport, Nitin Gadkari, stated in 2014 at IIM Kolkata that deploying the ETC system across the country may
save the government 86000 crore.
Electronic Toll Collection (ETC) is a method that collects toll payments electronically. This technology is used all over the globe to
reduce traffic congestion at toll booths. There are several types of ETC systems that automatically verify a vehicle and digitally
collect toll payments. Concerning the heavy traffic on Indian roads and the need for contactless payment, the RFID technologybased
ETC system is used under the brand name FASTag.
In India, the National Electronic Toll Collection (NETC) scheme was launched in collaboration with the National Payment
Corporation of India (NPCI) by the Ministry of Road Transport and Highways. India Highway Management LTD (IHML) manages
the ETC system in India.
Similar to Automatic vehicle rc book& driving license verification 02 (1) (20)
Let's Integrate MuleSoft RPA, COMPOSER, APM with AWS IDP along with Slackshyamraj55
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Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
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Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
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BIO: Sostenitrice del software libero e dei formati standard e aperti. È stata un membro attivo dei progetti Fedora e openSUSE e ha co-fondato l'Associazione LibreItalia dove è stata coinvolta in diversi eventi, migrazioni e formazione relativi a LibreOffice. In precedenza ha lavorato a migrazioni e corsi di formazione su LibreOffice per diverse amministrazioni pubbliche e privati. Da gennaio 2020 lavora in SUSE come Software Release Engineer per Uyuni e SUSE Manager e quando non segue la sua passione per i computer e per Geeko coltiva la sua curiosità per l'astronomia (da cui deriva il suo nickname deneb_alpha).
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
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Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
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- Verstehen des DLAU-Tools und wie man es am besten nutzt
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UiPath Test Automation using UiPath Test Suite series, part 6DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 6. In this session, we will cover Test Automation with generative AI and Open AI.
UiPath Test Automation with generative AI and Open AI webinar offers an in-depth exploration of leveraging cutting-edge technologies for test automation within the UiPath platform. Attendees will delve into the integration of generative AI, a test automation solution, with Open AI advanced natural language processing capabilities.
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What will you get from this session?
1. Insights into integrating generative AI.
2. Understanding how this integration enhances test automation within the UiPath platform
3. Practical demonstrations
4. Exploration of real-world use cases illustrating the benefits of AI-driven test automation for UiPath
Topics covered:
What is generative AI
Test Automation with generative AI and Open AI.
UiPath integration with generative AI
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
3. As the number of incidents relating to vehicle thefts
are increasing day-to- day, with the proposed
verification and automation project based on RFID
technology we can overcome these incidents.
In the proposed project we come across the
implementation techniques using RFID Reader,
Atmega 328 and ARDUINO.
4. The main objective of this project is to implement
and design a prototype for automatic verification
system of RC book and driving license using RFID
technology
6. ARDUINO UNO
ATmega 328 microcontroller
RFID Reader (EM – 18)
RFID tags
LCD (16 * 2) display
Buzzer
Power Supply
Traffic signal module
7.
8. The Arduino Uno uses an surface mount version of the Atmega328P.
It has 14 digital input/output pins (of which 6 can be used as PWM
outputs).
6 analog inputs.
6 power pins.
A 16 MHz crystal oscillator.
A USB connection, a power jack.
A reset button.
It contains ATMEL Atmega 328 micro controller.
3.3V and 5V voltage regulator.
10. The high-performance Microchip 8-bit AVR RISC-based microcontroller
combines
32KB ISP flash memory with read-while-write capabilities
1KB EEPROM
2KB SRAM
23 general purpose I/O lines
32 general purpose working registers
It consists of 28 pins
Serial programmable USART
6-channel 10-bit A/D converter
The device operates between 1.8-5.5
volts.
11. Radio frequency identification (RFID) technology system
contain 3 parts : Reader, Electronic tags and application
software systems.
Whenever the RFID tags are placed near the reader,It detects
the unique ID present in the tag and sends the information to the
microcontroller.
Hence we can identify whether the vehicle is authorized or not.
12. RF transmit frequency - 125KHz
Communication rate - 9600bps
Power supply - 4.5V- 5.5V DC
Current consumption - 50mA
Reading distance - up to 100mm
Size (L X W X H) -(32 X 32 X 8 )mm
13. RFID tagging is an ID system that uses small radio frequency
identification devices for identification and tracking purposes.
An RFID tagging system includes the tag itself, a read/write
device, and a host system application for data collection,
processing, and transmission.
14.
15.
16. 16×2 LCD is named so because; it has 16 Columns and 2 Rows. There are
a lot of combinations available like, 8×1, 8×2, 10×2, 16×1, etc. But the
most used one is the 16*2 LCD, hence we are using it here.
17. With the help of the piezo electric buzzer , whenever
the unauthorized vehicle crosses the RFID reader the
buzzer beeps for a time delay and automatically the
“RED” signal will be blown in the traffic signal
module.
18. With the help of the traffic signal whenever any
unauthorized vehicle passes through the
RFID reader it shows the “RED” signal which indicates
to stop.
In other cases it shows green and orange.
19.
20. With the help of proposed project, we can easily
determine the unauthorized vehicles using RFID
technology.
21. RFID tags can be affixed to automobiles for activating hands-
free access.
The RFID reader can also trigger surveillance cameras or
video recorders whenever a vehicle enters or exits the
controlled area.
Eliminates manual record keeping, thereby increasing
accuracy and staff productivity.
Attendance system in educational institutions and other work
places.
22. With the help of RFID reader used in this project we
can easily detect the stolen vehicles or any
unauthorized vehicles.
It is the most efficient method when compared to the
earlier methods where barcode detection system was
used.
23. This project is designed as a system to give complete
solution for transport related problems such as traffic rules
violation control and vehicle theft . It is proposed as a low
cost optimized solution using RFID technology.
24. Implementing RFID technique in toll tax system :
Electronic toll collection system allows the vehicle drivers
to pass the toll tax booths without stopping at the toll booths. The toll
amount is deducted from the RFID card. This RFID card is rechargeable
and account is stored on the records.
25. [1] RFID Technology Application in Container Transportation Wei Wang,
Shading Fan lShanghai Maritime Academy, China and School of Energy and
Power Engineering, Wuhan University of Technology, China.
[2] Automatic Vehicle Identification with SensorIntegrated RFID System 1
J. Wisanmongkol, T.Sanpechuda and U.Ketprom Proceedings of ECTICON
2008.
[3] Design of an RFID Vehicle Authentication System: A Case Study for Al-
Nahrain University Campus Fawzi M. Al-Naima, Haider S. Hatem
International Journal of Scientific and Technological Research www.iiste.org
ISSN 2422-8702 (Online) Vol 1, No.7, 2015.