Code:-
JPJA2305
Abstract:-
Traffic congestion and the scarcity of parking spaces have become pressing issues in our daily lives, often causing frustration and inconvenience. Traditional parking management systems often lead to congestion, long wait times, and inefficient space utilization. To address these challenges, our project leverages the power of QR codes and database technology to create a user-friendly, real-time parking management system. This study presents a software-based solution to address these challenges by offering a secure and time-efficient parking system. The �QR Code-based Smart Vehicle Parking Management System� is a cutting-edge solution designed to revolutionize the way we manage vehicle parking in urban environments. Developed using Java and MySQL, this system offers a seamless and efficient approach to parking management, enhancing user convenience and optimizing parking space utilization. Our proposed application allows users to reserve parking slots in advance at any location, eliminating the need to search for parking spaces on-site. The primary objective of this research is to develop and implement an automatic parking system that enhances the convenience of public parking zones while automating the collection of parking fees, reducing human intervention. Users can easily locate and reserve vacant slots through a user-friendly web-based application, reducing the hassle of searching for parking spots. Furthermore, this study introduces a novel approach to alleviate parking woes, offering insights into various solutions to address these issues. The web application provides users with the flexibility to select parking locations at their convenience, eliminating the need for last-minute searches and offering instant parking solutions. By presenting this innovative software solution, we aim to provide an alternative approach to mitigate parking challenges, improving the overall urban mobility experience. This research contributes to the ongoing efforts to enhance the efficiency and accessibility of parking facilities, making urban living more convenient and stress-free for all. This project represents a significant step towards smart, sustainable urban development by optimizing parking resources, reducing traffic congestion, and enhancing the overall quality of life in urban areas.
Existing System:-
The existing system for managing vehicle parking primarily relied on a manual approach and hardware-based solutions to oversee parking operations. This established system had been in place for an extended period and utilized the following key components and methods:<li>Manual Ticketing: The primary method of parking validation in the existing system was manual ticketing. When a vehicle entered the parking facility, attendants issued physical parking tickets to the drivers. These tickets served as proof of entry and were later required for exit validation.</li>
Disadvantages of Existing System:-
Inefficiency: The manual system is inherently less efficient compared to automated systems. Human intervention for issuing tickets, collecting fees, and managing entry and exit can lead to delays, especially during peak hours.<li>Limited Parking Information: Users often have limited access to real-time parking information. They may have to circle the parking area searching for an available spot, resulting in congestion and frustration.</li>
Proposed System:-
The heart of the proposed system is QR code technology. Users can generate unique QR codes through the system’s web application. These QR codes are associated with their vehicle’s information and parking reservation, effectively serving as digital parking permits.<li>The proposed system maintains a dynamic and continuously updated database of parking space availability. This real-time information is accessible to users through the application, allowing them to check parking availability before even reaching the parking facility.</li>
Advantages of Proposed System:-
Efficiency and Time-saving: Users can check real-time parking availability, reducing the time spent searching for parking spaces.<li>Convenience for Users: Pre-booking options allow users to reserve parking slots in advance, ensuring they have a guaranteed spot upon arrival. Cashless payment methods offer added convenience, eliminating the need for physical currency.</li>
Hardware Requirements:-
- System : Pentium i3 Processor.<li>Hard Disk : 500 GB.</li><li>Monitor : 15�� LED.</li><li>Input Devices : Keyboard, Mouse.</li><li>Ram : 4 GB.</li>
Software Requirements:-
- Operating system : Windows 10/11.<li>Coding Language : JAVA.</li> <li>Frontend : JSP, HTML, CSS, JavaScript.</li> <li>IDE Tool : Apache Netbeans IDE 16.</li> <li>Database : MYSQL.</li>
Cost:-
Rs 2000
QR Code-based Smart Vehicle Parking<br> Management System
Code:
JPJA2305
Abstract:
Traffic congestion and the scarcity of parking spaces have become pressing issues in our daily lives, often causing frustration and inconvenience. Traditional parking management systems often lead to congestion, long wait times, and inefficient space utilization. To address these challenges, our project leverages the power of QR codes and database technology to create a user-friendly, real-time parking management system. This study presents a software-based solution to address these challenges by offering a secure and time-efficient parking system. The �QR Code-based Smart Vehicle Parking Management System� is a cutting-edge solution designed to revolutionize the way we manage vehicle parking in urban environments. Developed using Java and MySQL, this system offers a seamless and efficient approach to parking management, enhancing user convenience and optimizing parking space utilization. Our proposed application allows users to reserve parking slots in advance at any location, eliminating the need to search for parking spaces on-site. The primary objective of this research is to develop and implement an automatic parking system that enhances the convenience of public parking zones while automating the collection of parking fees, reducing human intervention. Users can easily locate and reserve vacant slots through a user-friendly web-based application, reducing the hassle of searching for parking spots. Furthermore, this study introduces a novel approach to alleviate parking woes, offering insights into various solutions to address these issues. The web application provides users with the flexibility to select parking locations at their convenience, eliminating the need for last-minute searches and offering instant parking solutions. By presenting this innovative software solution, we aim to provide an alternative approach to mitigate parking challenges, improving the overall urban mobility experience. This research contributes to the ongoing efforts to enhance the efficiency and accessibility of parking facilities, making urban living more convenient and stress-free for all. This project represents a significant step towards smart, sustainable urban development by optimizing parking resources, reducing traffic congestion, and enhancing the overall quality of life in urban areas.
Existing System:
The existing system for managing vehicle parking primarily relied on a manual approach and hardware-based solutions to oversee parking operations. This established system had been in place for an extended period and utilized the following key components and methods:<li>Manual Ticketing: The primary method of parking validation in the existing system was manual ticketing. When a vehicle entered the parking facility, attendants issued physical parking tickets to the drivers. These tickets served as proof of entry and were later required for exit validation.</li>
Disadvantages of Existing System:
Inefficiency: The manual system is inherently less efficient compared to automated systems. Human intervention for issuing tickets, collecting fees, and managing entry and exit can lead to delays, especially during peak hours.<li>Limited Parking Information: Users often have limited access to real-time parking information. They may have to circle the parking area searching for an available spot, resulting in congestion and frustration.</li>
Proposed System:
The heart of the proposed system is QR code technology. Users can generate unique QR codes through the system’s web application. These QR codes are associated with their vehicle’s information and parking reservation, effectively serving as digital parking permits.<li>The proposed system maintains a dynamic and continuously updated database of parking space availability. This real-time information is accessible to users through the application, allowing them to check parking availability before even reaching the parking facility.</li>
Advantages of Proposed System:
Efficiency and Time-saving: Users can check real-time parking availability, reducing the time spent searching for parking spaces.<li>Convenience for Users: Pre-booking options allow users to reserve parking slots in advance, ensuring they have a guaranteed spot upon arrival. Cashless payment methods offer added convenience, eliminating the need for physical currency.</li>
Hardware Requirements:
- System : Pentium i3 Processor.<li>Hard Disk : 500 GB.</li><li>Monitor : 15�� LED.</li><li>Input Devices : Keyboard, Mouse.</li><li>Ram : 4 GB.</li>
Software Requirements:
- Operating system : Windows 10/11.<li>Coding Language : JAVA.</li> <li>Frontend : JSP, HTML, CSS, JavaScript.</li> <li>IDE Tool : Apache Netbeans IDE 16.</li> <li>Database : MYSQL.</li>
Cost:
Rs 2000
Additional Information
Tools Used:
Java
Cost:
₹Rs 2000
