Now a days Shopping is one of the most fascinating and alluring things. At the very same time, it involves getting tired due to standing in a long queue for the bill and payment process. At billing counter, they get confused while comparing the total price of all the products with the budget in the pocket before billing. To overcome these problems, we have designed a Smart Cart using an Arduino. Each shopping cart is implemented with a Product Identification Device (PID) that contains a microcontroller, an LCD, LDR Module, RFID reader, Bluetooth module and Push buttons. Here each item consists of a RFID tag and each item is scanned with the help of RFID reader before dropping into the cart. There is a chance to revert the product depending on our need and budget. This can be done by using a push button. If the item is not scanned and is dropped into the cart, an alert is given through the buzzer. This is done with the help of LDR module and Laser diode. The total bill and the number of items will be displayed on the LCD once we are done with shopping and the total bill will be sent to the android device with the help of the Bluetooth module.
The document describes a smart parking management system project developed by students of the Government Polytechnic, Hyderabad. The system uses IoT sensors like IR sensors and Arduino/NodeMCU microcontrollers along with a mobile app to provide real-time parking availability information to drivers. It aims to reduce traffic and improve parking efficiency. The system notifies drivers of vacant spots via an app and also guides them to spots using an LED light signal. It is intended to enhance the parking experience while optimizing space utilization.
RFID Based Smart Trolley for Supermarket AutomationIRJET Journal
This document describes a proposed RFID-based smart trolley system for supermarket automation. The system would attach RFID tags to all supermarket items and integrate an RFID reader and display into shopping trolleys. As customers add items to their trolley, the RFID reader would detect the items' tags and display the item details and running total on the trolley's display. Customer purchases and billing totals would be wirelessly transmitted to the supermarket's backend systems using Zigbee technology. The proposed system aims to streamline the shopping experience for customers by automating item detection and display of purchase information in real-time as items are added to the trolley.
AUTOMATIC SMART SHOPPING TROLLY WITH BILLINGIRJET Journal
This document describes a proposed automatic smart shopping trolley system with billing capabilities. The system uses RFID tags and an ultrasonic sensor to identify and track items added to the trolley. When items with RFID tags are placed in the trolley, the tags are read by an RFID reader which updates the item and billing information. The trolley is also equipped with an ultrasonic sensor and WiFi connectivity to allow it to automatically follow and track customers in the store. The goal of the system is to provide an efficient solution to billing and reduce queues by performing billing directly in the trolley.
IRJET- IOT and RFID based shopping mallIRJET Journal
This document describes an IOT and RFID-based smart shopping mall system. An RFID reader in the shopping cart scans product tags and displays the product details and running total on an LCD screen. IOT is used to remotely control lights and appliances in the mall using a NodeMCU board. The system aims to provide customers with real-time product information and reduce billing wait times compared to traditional systems. It could help improve the shopping experience in malls.
smart shopping trolley which makes shopping easy and comfort. Smart shopping trolley which reduces the waiting period in the shopping-malls and makes shopping easy. The Product RFID tag should scan on the RFID scanner so the product will be stored and products keep on scanning and adding the total amount will be displayed on the Lcd. Customer can easily pay the bill using digital payments and also through cash
Automatic Unauthorized Parking Detector With SMS Notification To OwnerAkshit Samnani
This project proposes a system to automatically detect unauthorized parking and notify vehicle owners via SMS. It uses RFID transmitters in vehicles and receivers mounted in prohibited parking areas. If a vehicle parks in a prohibited area, the RFID reader detects the transmitter ID and notifies authorities of the location so they can issue a fine. It also sends an SMS to the vehicle owner about the fine. The system aims to reduce illegal parking and traffic congestion. It uses low-cost hardware like an Arduino, RFID components, LCD display and GSM module to achieve this goal efficiently with minimal human intervention.
IRJET- Smart Trolley with Automated Billing SystemIRJET Journal
This document describes a smart trolley system with automated billing. The system uses an Arduino, barcode scanner, IR sensor, driver circuit and DC motor. It allows customers to scan items with the barcode scanner as they shop to automatically calculate the running total on an LCD display. An IR sensor counts the total number of items. The motorized trolley can be remotely controlled, reducing manual pushing. This proposed smart trolley aims to reduce customer waiting times at billing counters and the physical effort of pushing trolleys.
IRJET - Intelligent shopping cart and economic analysis using IoT and Cloudse...IRJET Journal
This document describes an intelligent shopping cart system that uses RFID technology and cloud computing to automate the shopping and billing process. The system uses an RFID reader and tags on products to automatically identify items as they are added to the cart and calculate a running total. It allows users to add or remove items and view the total without waiting in line. All transaction data is uploaded to the cloud for future reference. The system is designed to save users time by eliminating long checkout queues and help them track spending against budgets. It is controlled using an Arduino microcontroller and integrates IoT concepts like RFID and cloud computing for an automated shopping experience.
The document describes a smart parking management system project developed by students of the Government Polytechnic, Hyderabad. The system uses IoT sensors like IR sensors and Arduino/NodeMCU microcontrollers along with a mobile app to provide real-time parking availability information to drivers. It aims to reduce traffic and improve parking efficiency. The system notifies drivers of vacant spots via an app and also guides them to spots using an LED light signal. It is intended to enhance the parking experience while optimizing space utilization.
RFID Based Smart Trolley for Supermarket AutomationIRJET Journal
This document describes a proposed RFID-based smart trolley system for supermarket automation. The system would attach RFID tags to all supermarket items and integrate an RFID reader and display into shopping trolleys. As customers add items to their trolley, the RFID reader would detect the items' tags and display the item details and running total on the trolley's display. Customer purchases and billing totals would be wirelessly transmitted to the supermarket's backend systems using Zigbee technology. The proposed system aims to streamline the shopping experience for customers by automating item detection and display of purchase information in real-time as items are added to the trolley.
AUTOMATIC SMART SHOPPING TROLLY WITH BILLINGIRJET Journal
This document describes a proposed automatic smart shopping trolley system with billing capabilities. The system uses RFID tags and an ultrasonic sensor to identify and track items added to the trolley. When items with RFID tags are placed in the trolley, the tags are read by an RFID reader which updates the item and billing information. The trolley is also equipped with an ultrasonic sensor and WiFi connectivity to allow it to automatically follow and track customers in the store. The goal of the system is to provide an efficient solution to billing and reduce queues by performing billing directly in the trolley.
IRJET- IOT and RFID based shopping mallIRJET Journal
This document describes an IOT and RFID-based smart shopping mall system. An RFID reader in the shopping cart scans product tags and displays the product details and running total on an LCD screen. IOT is used to remotely control lights and appliances in the mall using a NodeMCU board. The system aims to provide customers with real-time product information and reduce billing wait times compared to traditional systems. It could help improve the shopping experience in malls.
smart shopping trolley which makes shopping easy and comfort. Smart shopping trolley which reduces the waiting period in the shopping-malls and makes shopping easy. The Product RFID tag should scan on the RFID scanner so the product will be stored and products keep on scanning and adding the total amount will be displayed on the Lcd. Customer can easily pay the bill using digital payments and also through cash
Automatic Unauthorized Parking Detector With SMS Notification To OwnerAkshit Samnani
This project proposes a system to automatically detect unauthorized parking and notify vehicle owners via SMS. It uses RFID transmitters in vehicles and receivers mounted in prohibited parking areas. If a vehicle parks in a prohibited area, the RFID reader detects the transmitter ID and notifies authorities of the location so they can issue a fine. It also sends an SMS to the vehicle owner about the fine. The system aims to reduce illegal parking and traffic congestion. It uses low-cost hardware like an Arduino, RFID components, LCD display and GSM module to achieve this goal efficiently with minimal human intervention.
IRJET- Smart Trolley with Automated Billing SystemIRJET Journal
This document describes a smart trolley system with automated billing. The system uses an Arduino, barcode scanner, IR sensor, driver circuit and DC motor. It allows customers to scan items with the barcode scanner as they shop to automatically calculate the running total on an LCD display. An IR sensor counts the total number of items. The motorized trolley can be remotely controlled, reducing manual pushing. This proposed smart trolley aims to reduce customer waiting times at billing counters and the physical effort of pushing trolleys.
IRJET - Intelligent shopping cart and economic analysis using IoT and Cloudse...IRJET Journal
This document describes an intelligent shopping cart system that uses RFID technology and cloud computing to automate the shopping and billing process. The system uses an RFID reader and tags on products to automatically identify items as they are added to the cart and calculate a running total. It allows users to add or remove items and view the total without waiting in line. All transaction data is uploaded to the cloud for future reference. The system is designed to save users time by eliminating long checkout queues and help them track spending against budgets. It is controlled using an Arduino microcontroller and integrates IoT concepts like RFID and cloud computing for an automated shopping experience.
Smart Trolley in Mega Mall Using ZigbeeIRJET Journal
This document describes a smart trolley system for mega malls using Zigbee technology. The system uses RFID tags on products that are scanned by an RFID reader on the trolley. The product information and price are then displayed on an LCD screen. As additional products are scanned, their prices are added to the running total displayed. The trolley components communicate wirelessly with a central PC using Zigbee. This allows customers to easily track their spending in real-time and make purchase decisions before checkout, saving time. The system aims to improve the shopping experience by expediting the shopping and billing process.
Smart Shopping trolley, complete detail about smart shopping trolley system,
Basically this is based on RFID technology,
Components
Arduino nano
RFID reader EM 18
RFID Tags
Push button
Red and Green LED
BreadBoard
Jumper wires
Buzzer
16x2 LCD
I2C Module.
With the vast growing influx of population in the developed, industrially and technologically sound urban cities, an urgent need to make the cities smart is surmounted. The cities are made smart utilizing data sharing, artificial intelligence, machine learning, analytics, and thousands of RFID tags and sensors. One of the significant concerns of today's smart cities is the growing need to manage the vehicles on-road as well as to create sufficient and well-managed parking lots to prevent urban areas from traffic congestion. This leads to a call for highly automated parking management system self-sufficient in guiding the driver to an available parking space in the nearby area. This project deals with the prototype of the smart parking system (S.P system). The proposed smart parking system collects the parking availability status and assists drivers in finding parking space that effectively reduces the traffic problems and mismanagement across the cities to a great extent.
1) Manu's Employee Estimating Device is a simple, low-cost people counter that uses an LDR light sensor and IC chips to count the number of employees entering a building. When light falling on the LDR is interrupted, the resistance changes and provides a clock pulse to increment the count displayed on seven segment displays.
2) The device aims to provide an affordable counting solution for small businesses. It works by detecting changes in light falling on an LDR sensor and using this to increment the count displayed.
3) The document discusses the components, working principle, advantages over other technologies, applications and concludes the device provides an inexpensive option for counting employees, especially suitable for small industries.
MOBILE CHARGING SYSTEM USING COIN AND RFIDIRJET Journal
This document describes a coin and RFID-based mobile charging system that uses solar power. The system allows users to charge their mobile phones by inserting coins of different denominations (Rs. 1, 2, 5) or using an RFID tag. An Arduino Nano controls the coin/RFID detection and charging time. Users can scan their registered RFID tag to open a door and start charging, or insert coins of different values to charge for a time period depending on the coin value. The system is intended for use in rural areas where grid power is intermittent to provide emergency mobile charging using solar power as the primary source and grid as backup.
1) The document describes an automatic car parking system that uses ultrasonic sensors, infrared sensors, an Arduino Uno, and an LCD display to help drivers find available parking spaces more efficiently.
2) The system obtains information about available parking spaces using sensors, processes the data with the Arduino Uno, and displays the results on the LCD screen to guide drivers to open spots, reducing time spent searching and cutting down on traffic and pollution.
3) The authors developed the system to address the common problem of drivers spending a significant amount of time navigating crowded parking lots in search of a space, which wastes fuel and increases congestion.
The vending machine which provides the beverage like snacks, cold drink, it is also used for ticketing. These systems are operated on either coin or note or manually switch operated. This paper presents the system which operates not on coin or note, it operates on RFID system. This system gives the access through only RFID which avoid the misuse of machine. A small RFID reader is fitted on the machine. The identity card which contains RFID tag is given to each person. If the ID card owner wants to get some snacks, by showing the ID tag to the reader is the only way to get the desired snacks and the amount to money to pay will be deducted from the account. Aye Aye Nyein | Ohnmar Win "RFID Based Vending Machine" 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/ijtsrd27851.pdf Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/27851/rfid-based-vending-machine/aye-aye-nyein
Automatic Intelligent Traffic Controller and Operation ModeIRJET Journal
This document summarizes an automatic intelligent traffic controller system that uses IR sensors and an Arduino board to control traffic lights and road spikes based on vehicle density and emergencies. IR sensors placed on the roadside measure vehicle input and output counts to determine traffic density. Higher density lanes will get longer green lights. In emergencies, IR sensors on an ambulance can trigger green lights and deactivate road spikes 50 yards before intersections. The system aims to reduce traffic and wasted time compared to traditional time-based controls. It uses an Arduino as the main controller, an LCD to display traffic data, LEDs for traffic lights, motors to control road spikes, and IR sensors to detect vehicles and emergencies.
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.
IRJET- IoT Enabled Smart Class Room: A Step Towards Supporting Digital IndiaIRJET Journal
This document describes an IoT-enabled smart classroom that uses Qtouch sensors and RFID technology to automate the student attendance process. Qtouch sensors are placed on chairs and detect when a student is sitting. Students use RFID cards to enter the classroom. Their attendance times are logged and a graph is generated. The system aims to reduce manual efforts, encourage attendance, and send attendance data to administrators through a server. It could also control room lighting, temperature and include a whiteboard cleaner. Programming is done using C on the Atmel Studio IDE and a SAMD21 microcontroller.
This document describes an RFID-based smart shopping cart and billing system project. The system uses RFID tags attached to products to automatically identify items placed in the cart and track them for billing purposes. Key features include displaying product information and price on an LCD screen on the cart, allowing payment via RFID credit card within the cart or at checkout, and sending an SMS receipt. The system aims to make shopping and billing more convenient and efficient by automating processes using RFID and wireless communication technologies like Zigbee and GSM.
The document describes a smart vehicle parking system that uses sensors and displays to indicate available parking spots. Infrared sensors placed in each spot detect vehicle presence and send data to an Arduino board, which tracks occupancy and updates an LCD display outside the parking area. This allows drivers to easily see which spots are available without manually checking each one, reducing time spent searching for a place to park. The system aims to solve common parking problems by making occupancy information available in real-time.
RFID BASED SECURITY SYSTEM USING ARDUINO.pptxDeepakK547422
1. The document presents details from a student project on an RFID-based security system using Arduino. It lists 5 students and their project topics, all related to using RFID and Arduino for security applications.
2. The system uses RFID tags and sensors along with an Arduino board to control door locks. Only authenticated persons with valid RFID tags can unlock the door. The system aims to provide contactless, wireless security and access control.
3. In addition to controlling door locks, the system can also integrate other components like LCD displays, LED indicators, DC motors, and more to enhance security and access control functions. The use of Arduino makes the system customizable and programmable for
The document describes a smart vehicle parking system that uses sensors and displays to indicate available parking spaces. It works by using infrared sensors at each parking spot that detect when a vehicle arrives or leaves and update the number of occupied spaces. An LCD display outside the parking area shows drivers the current availability status to help them find open spots more quickly and reduce traffic. The system is designed using an Arduino Uno microcontroller, IR sensors, servo motors, and LCD display. It aims to help solve common parking problems by more efficiently utilizing space and reducing congestion caused by drivers searching for parking.
Project will cover the over all distribution done by mechanized.Automation comes to government distribution system means it will provide better way to the public to use. Easy to use like ATM go and get the product by self via online payment. It will reduce corruption and smuggling activities.
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
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.
Paper on Customer Care Unit For Shopping MallIRJET Journal
This document describes a proposed customer care unit system for shopping malls. The system uses RFID cards, a microcontroller, and other components to automate the process of customers purchasing grains and other goods in weighted packets. When a valid customer card is scanned, the system will display available goods and quantities to the customer. The customer can then select items and quantities, and the total amount will be displayed. Payment will be made with the RFID card, without needing to visit a counter. This is proposed to save customers time compared to current shopping mall processes for weighted goods purchases.
Energy Conservation Bidirectional visitor counterIRJET Journal
This document describes a bidirectional visitor counter system that counts the number of people entering and leaving a room and displays the total on an LCD screen. It uses an IR sensor to detect movement and an Arduino microcontroller to increment or decrement the counter. When the count is zero, lights and fans automatically turn off to conserve energy. The system was successfully developed and tested, accurately counting visitors and controlling appliances in the room based on occupancy. It provides an effective way to monitor space usage and save electricity.
IRJET- Design and Implementation of Driverless Car using Machine LearningIRJET Journal
1. The document describes a design for a driverless car that uses machine learning techniques, specifically Support Vector Machines (SVMs), to navigate autonomously while following traffic rules and avoiding accidents.
2. The system uses various sensors like ultrasonic sensors and IR sensors to detect objects and signs, which are classified by the SVM model. It also uses zone-based control and has live video streaming for monitoring.
3. The goal of the system is to help reduce accidents by at least half by enabling driverless capabilities. It also aims to provide independent transportation for disabled or elderly individuals.
Smart Trolley in Mega Mall Using ZigbeeIRJET Journal
This document describes a smart trolley system for mega malls using Zigbee technology. The system uses RFID tags on products that are scanned by an RFID reader on the trolley. The product information and price are then displayed on an LCD screen. As additional products are scanned, their prices are added to the running total displayed. The trolley components communicate wirelessly with a central PC using Zigbee. This allows customers to easily track their spending in real-time and make purchase decisions before checkout, saving time. The system aims to improve the shopping experience by expediting the shopping and billing process.
Smart Shopping trolley, complete detail about smart shopping trolley system,
Basically this is based on RFID technology,
Components
Arduino nano
RFID reader EM 18
RFID Tags
Push button
Red and Green LED
BreadBoard
Jumper wires
Buzzer
16x2 LCD
I2C Module.
With the vast growing influx of population in the developed, industrially and technologically sound urban cities, an urgent need to make the cities smart is surmounted. The cities are made smart utilizing data sharing, artificial intelligence, machine learning, analytics, and thousands of RFID tags and sensors. One of the significant concerns of today's smart cities is the growing need to manage the vehicles on-road as well as to create sufficient and well-managed parking lots to prevent urban areas from traffic congestion. This leads to a call for highly automated parking management system self-sufficient in guiding the driver to an available parking space in the nearby area. This project deals with the prototype of the smart parking system (S.P system). The proposed smart parking system collects the parking availability status and assists drivers in finding parking space that effectively reduces the traffic problems and mismanagement across the cities to a great extent.
1) Manu's Employee Estimating Device is a simple, low-cost people counter that uses an LDR light sensor and IC chips to count the number of employees entering a building. When light falling on the LDR is interrupted, the resistance changes and provides a clock pulse to increment the count displayed on seven segment displays.
2) The device aims to provide an affordable counting solution for small businesses. It works by detecting changes in light falling on an LDR sensor and using this to increment the count displayed.
3) The document discusses the components, working principle, advantages over other technologies, applications and concludes the device provides an inexpensive option for counting employees, especially suitable for small industries.
MOBILE CHARGING SYSTEM USING COIN AND RFIDIRJET Journal
This document describes a coin and RFID-based mobile charging system that uses solar power. The system allows users to charge their mobile phones by inserting coins of different denominations (Rs. 1, 2, 5) or using an RFID tag. An Arduino Nano controls the coin/RFID detection and charging time. Users can scan their registered RFID tag to open a door and start charging, or insert coins of different values to charge for a time period depending on the coin value. The system is intended for use in rural areas where grid power is intermittent to provide emergency mobile charging using solar power as the primary source and grid as backup.
1) The document describes an automatic car parking system that uses ultrasonic sensors, infrared sensors, an Arduino Uno, and an LCD display to help drivers find available parking spaces more efficiently.
2) The system obtains information about available parking spaces using sensors, processes the data with the Arduino Uno, and displays the results on the LCD screen to guide drivers to open spots, reducing time spent searching and cutting down on traffic and pollution.
3) The authors developed the system to address the common problem of drivers spending a significant amount of time navigating crowded parking lots in search of a space, which wastes fuel and increases congestion.
The vending machine which provides the beverage like snacks, cold drink, it is also used for ticketing. These systems are operated on either coin or note or manually switch operated. This paper presents the system which operates not on coin or note, it operates on RFID system. This system gives the access through only RFID which avoid the misuse of machine. A small RFID reader is fitted on the machine. The identity card which contains RFID tag is given to each person. If the ID card owner wants to get some snacks, by showing the ID tag to the reader is the only way to get the desired snacks and the amount to money to pay will be deducted from the account. Aye Aye Nyein | Ohnmar Win "RFID Based Vending Machine" 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/ijtsrd27851.pdf Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/27851/rfid-based-vending-machine/aye-aye-nyein
Automatic Intelligent Traffic Controller and Operation ModeIRJET Journal
This document summarizes an automatic intelligent traffic controller system that uses IR sensors and an Arduino board to control traffic lights and road spikes based on vehicle density and emergencies. IR sensors placed on the roadside measure vehicle input and output counts to determine traffic density. Higher density lanes will get longer green lights. In emergencies, IR sensors on an ambulance can trigger green lights and deactivate road spikes 50 yards before intersections. The system aims to reduce traffic and wasted time compared to traditional time-based controls. It uses an Arduino as the main controller, an LCD to display traffic data, LEDs for traffic lights, motors to control road spikes, and IR sensors to detect vehicles and emergencies.
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.
IRJET- IoT Enabled Smart Class Room: A Step Towards Supporting Digital IndiaIRJET Journal
This document describes an IoT-enabled smart classroom that uses Qtouch sensors and RFID technology to automate the student attendance process. Qtouch sensors are placed on chairs and detect when a student is sitting. Students use RFID cards to enter the classroom. Their attendance times are logged and a graph is generated. The system aims to reduce manual efforts, encourage attendance, and send attendance data to administrators through a server. It could also control room lighting, temperature and include a whiteboard cleaner. Programming is done using C on the Atmel Studio IDE and a SAMD21 microcontroller.
This document describes an RFID-based smart shopping cart and billing system project. The system uses RFID tags attached to products to automatically identify items placed in the cart and track them for billing purposes. Key features include displaying product information and price on an LCD screen on the cart, allowing payment via RFID credit card within the cart or at checkout, and sending an SMS receipt. The system aims to make shopping and billing more convenient and efficient by automating processes using RFID and wireless communication technologies like Zigbee and GSM.
The document describes a smart vehicle parking system that uses sensors and displays to indicate available parking spots. Infrared sensors placed in each spot detect vehicle presence and send data to an Arduino board, which tracks occupancy and updates an LCD display outside the parking area. This allows drivers to easily see which spots are available without manually checking each one, reducing time spent searching for a place to park. The system aims to solve common parking problems by making occupancy information available in real-time.
RFID BASED SECURITY SYSTEM USING ARDUINO.pptxDeepakK547422
1. The document presents details from a student project on an RFID-based security system using Arduino. It lists 5 students and their project topics, all related to using RFID and Arduino for security applications.
2. The system uses RFID tags and sensors along with an Arduino board to control door locks. Only authenticated persons with valid RFID tags can unlock the door. The system aims to provide contactless, wireless security and access control.
3. In addition to controlling door locks, the system can also integrate other components like LCD displays, LED indicators, DC motors, and more to enhance security and access control functions. The use of Arduino makes the system customizable and programmable for
The document describes a smart vehicle parking system that uses sensors and displays to indicate available parking spaces. It works by using infrared sensors at each parking spot that detect when a vehicle arrives or leaves and update the number of occupied spaces. An LCD display outside the parking area shows drivers the current availability status to help them find open spots more quickly and reduce traffic. The system is designed using an Arduino Uno microcontroller, IR sensors, servo motors, and LCD display. It aims to help solve common parking problems by more efficiently utilizing space and reducing congestion caused by drivers searching for parking.
Project will cover the over all distribution done by mechanized.Automation comes to government distribution system means it will provide better way to the public to use. Easy to use like ATM go and get the product by self via online payment. It will reduce corruption and smuggling activities.
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
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.
Paper on Customer Care Unit For Shopping MallIRJET Journal
This document describes a proposed customer care unit system for shopping malls. The system uses RFID cards, a microcontroller, and other components to automate the process of customers purchasing grains and other goods in weighted packets. When a valid customer card is scanned, the system will display available goods and quantities to the customer. The customer can then select items and quantities, and the total amount will be displayed. Payment will be made with the RFID card, without needing to visit a counter. This is proposed to save customers time compared to current shopping mall processes for weighted goods purchases.
Energy Conservation Bidirectional visitor counterIRJET Journal
This document describes a bidirectional visitor counter system that counts the number of people entering and leaving a room and displays the total on an LCD screen. It uses an IR sensor to detect movement and an Arduino microcontroller to increment or decrement the counter. When the count is zero, lights and fans automatically turn off to conserve energy. The system was successfully developed and tested, accurately counting visitors and controlling appliances in the room based on occupancy. It provides an effective way to monitor space usage and save electricity.
IRJET- Design and Implementation of Driverless Car using Machine LearningIRJET Journal
1. The document describes a design for a driverless car that uses machine learning techniques, specifically Support Vector Machines (SVMs), to navigate autonomously while following traffic rules and avoiding accidents.
2. The system uses various sensors like ultrasonic sensors and IR sensors to detect objects and signs, which are classified by the SVM model. It also uses zone-based control and has live video streaming for monitoring.
3. The goal of the system is to help reduce accidents by at least half by enabling driverless capabilities. It also aims to provide independent transportation for disabled or elderly individuals.
Similar to Smart Cart With AUtomated Biliing .pptx (20)
Philippine Edukasyong Pantahanan at Pangkabuhayan (EPP) CurriculumMJDuyan
(𝐓𝐋𝐄 𝟏𝟎𝟎) (𝐋𝐞𝐬𝐬𝐨𝐧 𝟏)-𝐏𝐫𝐞𝐥𝐢𝐦𝐬
𝐃𝐢𝐬𝐜𝐮𝐬𝐬 𝐭𝐡𝐞 𝐄𝐏𝐏 𝐂𝐮𝐫𝐫𝐢𝐜𝐮𝐥𝐮𝐦 𝐢𝐧 𝐭𝐡𝐞 𝐏𝐡𝐢𝐥𝐢𝐩𝐩𝐢𝐧𝐞𝐬:
- Understand the goals and objectives of the Edukasyong Pantahanan at Pangkabuhayan (EPP) curriculum, recognizing its importance in fostering practical life skills and values among students. Students will also be able to identify the key components and subjects covered, such as agriculture, home economics, industrial arts, and information and communication technology.
𝐄𝐱𝐩𝐥𝐚𝐢𝐧 𝐭𝐡𝐞 𝐍𝐚𝐭𝐮𝐫𝐞 𝐚𝐧𝐝 𝐒𝐜𝐨𝐩𝐞 𝐨𝐟 𝐚𝐧 𝐄𝐧𝐭𝐫𝐞𝐩𝐫𝐞𝐧𝐞𝐮𝐫:
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Smart Cart With AUtomated Biliing .pptx
1. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
1
SMART CART WITH AUTOMATED BILLING
By
V. R. V. S. Karthik (18NU1A0448)
V. Sai Preethi (18NU1A0447)
R.Teja (18NU1A0437)
P. Jyothi (18NU1A0435)
Under the guidance of
Mr. K.Y.K.G.R. SRINIVASU, MTech.
Assistant Professor
Department of Electronics and Communication Engineering
3. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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ABSTRACT
• Shopping is really fascinating and alluring; at the same time, it involves getting tired due to
standing in a long queue for the bill and payment process.
• After putting all items in cart, we approach the counter for billing and it results in long queues at
counter.
• At billing counter, they get confused while comparing the total price of all the products with the
budget in the pocket before billing.
• To overcome these problems, we have designed a smart cart using an Arduino Uno.
• Each shopping cart is implemented with a Product Identification Device (PID) that contains a
microcontroller, an LCD, RFID reader, LDR module, Laser diode, Bluetooth module and Push
buttons.
4. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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INTRODUCTION
• In this era of multiplexes and malls, normally we face huge rush and crowd while we go for
shopping.
• People generally spend much of their time in shopping. So we need to make this process of
shopping simpler and more efficient.
• While shopping, cart plays an important role to carry all the items . After selecting all the items, we
go to the billing counter and have to wait in long queue for our turn.
• Customers get frustrated while waiting in the queue at billing counter and sometimes they get
confused while comparing the total price of all the products with the budget in the pocket before
billing.
• So, to avoid this a product based on Embedded System design is introduced in our project.
5. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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BLOCK DIAGRAM FOR SMART CART
Figure 1: Block Diagram for Smart Cart
6. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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CIRCUIT DIAGRAM OF SMART CART
Figure 2: Circuit Diagram of Smart Cart
7. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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OPERATION
• From the block diagram, we can observe the inputs and outputs that are given to the AT mega
328P microcontroller of Arduino Uno.
• This scanning of products is done with the help of RFID Module which consists of the RFID tag
and the RFID reader.
• A laser is placed at one end of the cart. The reflection of laser is made to fall on the LDR which is
placed at another end of the cart with the help of mirrors.
• The interruption of the laser without scanning leads to the production of buzzer.
• Each and every step of addition & subtraction of items and the total bill in the form of a receipt will
be displayed in the Android device to which the Bluetooth module HC-05 is paired with.
8. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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SMART CART WITH AUTOMATED BILLING KIT
Figure 3 :Smart Cart With Automated Billing Kit
9. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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HARDWARE COMPONENTS
• Arduino Uno
• Liquid Crystal Display(LCD)
• Push Buttons
• MFRC522 RFID Reader
• RFID Tags
• LDR Module
• Laser Diode
• HC-05 Bluetooth Module
• LED
• Buzzer
10. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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Arduino Uno Is A Microcontroller board based on the Atmega328p. It has 14 digital input/output pins
(of which 6 can be used as PWM outputs), 6 analog inputs, a 16 MHz Is the clock frequency.
Figure 4: Arduino Uno
11. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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LCD (Liquid Crystal Display) is an electronic display device that operates by applying a varying
electric voltage to a layer of liquid crystal. The heart of LCD is a special liquid that is called twisted
nematic liquid crystal. It consists of 16 pins.
Figure 5: LCD
12. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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A Push Button switch controls an action in a machine or other type of process. It helps in starting
or stopping a process. Here we are using 2 push buttons- one for addition and another for
subtraction.
Figure 6: Push Buttons
13. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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The MFRC522 RFID Reader module is designed to create a 13.56MHz electromagnetic field that it
uses to communicate with the RFID tags.
Figure 7: RFID Reader
14. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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• RFID Tags are a type of tracking system that uses radio frequency to search, identify, track, and
communicate with items and people. Essentially, RFID tags are smart labels that can store a
range of information from serial numbers, to a short description, and even pages of data.
• Some RFID tags include cryptographic security features for a high level of verification and
authentication. RFID tags are usually identified by their radio frequencies: low frequency (LF),
high frequency (HF), and ultra-high frequency (UHF).
Figure 8: RFID Tags
15. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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A LDR Sensor Module is used to detect the intensity of light. The output of the module goes
high in presence of light and it goes low in absence of light.
Figure 9: LDR Module
16. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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A Laser Diode is a semiconductor device similar to a light-emitting diode (LED). It uses P-n
Junction to emit coherent light in which all the waves are at the same frequency and phase. This
coherent light is produced by the laser diode using a process termed as “light amplification by
stimulated emission of radiation”, which is abbreviated as LASER.
Figure 10: Laser
17. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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HC-05 Bluetooth Module is an easy to use Bluetooth SPP (Serial Port Protocol) module,
designed for transparent wireless serial connection setup. Its communication is via serial
communication which makes an easy way to interface with controller or PC.
Figure 11: HC-05 Bluetooth Module
18. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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LEDs are small powerful lights that are used in different applications. Here for generating the total
bill, we are using a green coloured LED and for deduction of items we are using a red coloured
LED.
Figure 12: LED
19. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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Buzzer is a sounding device that can convert audio signals into sound signals. It is usually
powered by DC voltage. It is widely used in alarms, computers, printers and other electronic
products as sound devices. It is mainly divided into piezoelectric buzzer and electromagnetic
buzzer.
Figure 13: Buzzer
20. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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SOFTWARE USED
• Arduino IDE
• Bluetooth Electronics Application
21. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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The Arduino IDE is an open-source software, which is used to write and upload code to the
Arduino boards. It supports the programming languages C and C++. Here, IDE stands
for Integrated Development Environment.
Figure 14: Arduino IDE
22. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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This Bluetooth Electronics Application communicates using Bluetooth to an HC-05 Bluetooth
module in our project.
Figure 15: Main Screen of Bluetooth Electronics Application
23. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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APPLICATIONS
• The customer easily manages the shopping bills in mobile application according to
preferences and these help people in shopping malls using easy payment and billing options.
• Wireless communication will provide flexibility to the shopping malls and supermarket
management system.
24. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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CONCLUSION
• To avoid the confusion while comparing the total price of all the products with the budget in the
pocket before billing at shopping malls and super markets, a Smart Cart is introduced.
• This project allows the customers to scan the items before adding them to the cart and also
allows to remove the items if the cost is more than our budget.
• The customers will be knowing the total cost and the number of items through the 16x2 LCD
display while the person at the billing counter also receives the total receipt on the Android
device by pairing the Android device to the Bluetooth module associated with the cart.
25. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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FUTURE SCOPE
• UPI payment module can be further added for direct payment without standing in the queue.
• GSM module can be added to send the message directly to the customers mobile.
• To avoid the misuse of the cart, a card slot can be provided in the cart so that the customers who
has membership in that particular mall or supermarket can get the access to the membership
card which when inserted in the slot makes the normal cart as smart cart.
26. Nadimpalli Satyanarayana Raju Institute of Technology (NSRIT)
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REFERENCES
1. Design and development of Smart cart or trolley Based on H. H. Chiang et al, “Development of
smart shopping carts with customer-oriented service”, in proc. of International Conference on
System Science and Engineering, Taiwan, pp. 1-2, 2016.
2. S.Kamble, S.Meshram, R.Thokal and R.Gakre, “Developing a‘ Multitasking Shopping Trolley
Based on RFID Technology", International Journal of Soft Computing and Engineering, Vol.3,
No.6, pp.179-183.2014
3. S. Sojitral and RG Patel, “A Review of Smart Shopping Systems", International Research Journal
of Engineering and Technology, Vol. 3, No.5, pp. 2561-2563, 2016
4. Naveen Prabu, T. Mahalakshmi, B. Nagaraj, T. Kumar, S.P.N. Jagadeesh, M.2020. IoT Based
Smart Billing and Direction Controlled Trolley, 6th International Conference on Advanced
Computing and Communication Systems (ICACCS) pp. 426- 429.