On Road Vehicle Breakdown Assistance Finder | Php Final Year Project
On Road Vehicle Breakdown Assistance Finder
PROJECT ABSTRACT:
All over the world, the numbers of vehicles are increasing drastically. With the increasing number of vehicles on the road, breakdowns have become a common challenge faced by travelers. On-road vehicle breakdowns often cause inconvenience, delays, and safety concerns, particularly in unfamiliar locations or during emergencies. To address this issue, the “On Road Vehicle Breakdown Assistance Finder” is developed as a comprehensive digital platform to bridge the gap between stranded users and available mechanics, providing quick and reliable roadside assistance.
This system is built using PHP for backend operations, HTML, CSS, and Bootstrap for an intuitive and responsive frontend design, and Angular JS to enhance dynamic content delivery. The data is managed securely using a MySQL database, ensuring efficient data handling and retrieval.
The platform facilitates seamless interaction among three primary roles: user, administrator, and mechanic. Users can search for mechanics based on location and availability, share their location and issue via Google Maps, and receive timely assistance. Mechanics can register their services, manage requests, and update the status of ongoing jobs. Administrator oversee the system, ensuring only verified mechanics are approved to provide services. The system also incorporates feedback functionality to maintain service quality and enhance user satisfaction.
This project leverages modern web technologies to create an efficient and user-friendly platform, making roadside assistance accessible and reliable in times of need.
PROJECT OUTPUT VIDEO:
EXISTING SYSTEM:
- The existing system for on-road vehicle breakdown assistance primarily relied on manual processes and traditional communication methods. Users in need of roadside assistance had to contact mechanics or service providers directly via phone calls or rely on nearby repair shops. Mechanics, on the other hand, provided services locally, and their availability was typically spread through word-of-mouth or physical advertisements.
- In the existing system, service information, including mechanic contact details and service offerings, was often maintained in offline records or basic directories. The process involved users describing their location and the issue over the phone, which mechanics used to navigate to the user’s location. Payment was handled in cash or as agreed upon between the user and the mechanic. Feedback mechanisms, if any, were informal, such as verbal acknowledgments or reviews shared within local communities.
- The existing system was functional, but it didn’t rely on digital integration; interactions were handled directly by mechanics and users. It provided a fundamental method for handling on-road malfunctions, depending on well-established local networks and the skills of the mechanics to deliver aid promptly.
DISADVANTAGES OF EXISTING SYSTEM:
- Lack of Accessibility: The existing system users often struggle to find nearby mechanics, especially in remote or unfamiliar locations.
- In the existing system, there was only limited reach of mechanics beyond their local network restricts timely assistance.
- Inefficient Communication: In the existing system, describing the breakdown issue and exact location over a phone call can lead to misunderstandings or delays.
- In the existing system, Mechanics may face challenges in locating the user without precise directions.
- No Real-Time Tracking: The absence of real-time location sharing or tracking makes it difficult for mechanics to navigate effectively to the user’s location.
- Verification Issues: Mechanics’ qualifications and reliability are not verified, leading to potential concerns about the quality of service.
- In the existing system, users cannot access reviews or feedback to evaluate the mechanic’s reputation.
- Time-Consuming: Searching for mechanics and coordinating assistance manually can result in significant delays during emergencies.
- No Centralized Management: The existing system does not have an organized platform to maintain records of mechanics, users, or past services, making it difficult to track or improve service delivery.
- Lack of Feedback Mechanism: Users have no formal way to provide feedback on the service, limiting opportunities for mechanics to improve.
- Cash-Only Transactions: Payments are often cash-based, which can be inconvenient for users who may not carry sufficient cash during emergencies.
- By addressing these limitations, the new digital system aims to provide a seamless, reliable, and user-friendly platform for on-road vehicle breakdown assistance.
PROPOSED SYSTEM:
- The proposed system, “On Road Vehicle Breakdown Assistance Finder,” is a modernized platform designed to streamline the process of connecting users in need of roadside assistance with available mechanics. Built using advanced web technologies such as PHP, Angular JS, HTML, CSS, and Bootstrap, and supported by a MySQL database, the system ensures robust and efficient functionality.
- The proposed system incorporates a user-friendly interface that allows individuals to register and log in, enabling them to access the service effortlessly. Users can search for mechanics based on their location and availability, leveraging integrated Google Maps functionality for precise location sharing. The system allows users to submit their breakdown details, including their location and the nature of the issue, directly to mechanics, ensuring clarity and reducing communication barriers.
- Mechanics can register their services through the platform, providing details such as location, services offered, and availability. Verified mechanics receive user requests and can view the user’s shared location and problem details, enabling them to plan and provide assistance efficiently. The system also enables mechanics to update the status of service requests, maintaining transparency and keeping users informed.
- Administrator manage the platform by verifying and approving mechanics, ensuring that only authorized and reliable service providers are listed. They also oversee system operations and maintain the integrity of the platform.
- This proposed system provides a structured and automated framework for addressing on-road vehicle breakdowns, enhancing connectivity and operational efficiency between users and mechanics.
ADVANTAGES OF PROPOSED SYSTEM:
- Enhanced Accessibility: Users can easily find mechanics nearby, even in unfamiliar or remote locations, through the platform’s search functionality.
- Real-Time Location Sharing: Integration with Google Maps allows users to share their precise location, enabling mechanics to navigate accurately and reach quickly.
- Efficient Communication: The system streamlines the exchange of information about the breakdown issue, minimizing misunderstandings and delays.
- Centralized Management: The platform organizes user, mechanic, and service records in a single database, simplifying operations and data retrieval.
- Verification and Trust: Mechanics are verified and approved by administrators, ensuring that users receive reliable and professional services.
- Improved Service Transparency: Mechanics can update the status of requests, allowing users to track the progress of their assistance in real time.
- User Feedback Mechanism: The system collects feedback from users, enabling mechanics to improve their services and ensuring accountability.
- User-Friendly Interface: Designed with HTML, CSS, and Bootstrap, the platform offers an intuitive and responsive interface for users and mechanics.
- Time-Saving: Automated request handling and location-based search significantly reduce the time taken to connect users with mechanics.
- Secure and Scalable: The use of PHP and MySQL ensures a secure and scalable backend, capable of handling large volumes of users and mechanics efficiently.
- Convenient Payment Tracking: While not explicitly detailed, the structured system can be easily extended to support digital payment methods, adding convenience for users.
- Comprehensive Role Management: Clear roles for users, mechanics, and administrators ensure smooth and organized operations across the platform.
- This system’s advantages make it a modern, reliable, and efficient solution for addressing on-road vehicle breakdowns effectively.
SYSTEM REQUIREMENTS:
HARDWARE REQUIREMENTS:
- System : Pentium i3 Processor.
- Hard Disk : 500 GB.
- Monitor : 15’’ LED.
- Input Devices : Keyboard, Mouse.
- Ram : 4 GB.
SOFTWARE REQUIREMENTS:
- Operating System : Windows 10 / 11.
- Front-End : HTML, CSS, and Bootstrap.
- Bank-End : Angular JS, PHP
- Database : MYSQL
- Tool : XAMP.