This project report discusses developing an online reservation system called "Epic Ride 24x7" for booking vehicles. The current manual system is time-consuming and inefficient. The proposed system will allow customers to book vehicles online and track their reservations. It will maintain vehicle and customer details as well as bookings. The system aims to automate the reservation process and improve customer satisfaction compared to the existing manual process. Key sections of the report include analyzing the existing system, proposed system features, feasibility study, and screenshots of the proposed online reservation system.
This is my college final field work report about online cab booking system. In this online cab booking how it works and some suggestions , analysis about cab booking . All information is in the report. ..
Thank you..
The document describes a cab booking system software developed by Custom Soft that allows customers to book and manage cab rides. The software provides features like registration, booking confirmation by SMS/email, choosing routes, tracking speed and location, prepaid and postpaid payment options, and an emergency panic button. Custom Soft is an experienced software development company that offers this cab booking solution along with guaranteed satisfaction, flexible engagement models, proven methodologies, and 24/7 support.
This document appears to be a project report submitted by three students - Tanya Bhadauria, Somendra Singh, and Vaibhav - for their Bachelor of Technology degree in Information Technology. It describes the development of an "Online Vehicle Rental System" under the supervision of Mr. Ramesh Sahoo. The report includes sections on introduction, software and hardware requirements, literature survey, software requirement analysis, coding, output screens, and conclusions.
Online booking system for car rental companies - Bespoke Car Rental Booking E...Orisys Infotech
A powerful and easy to use reservation system can interact with your guests automatically ensure more bookings by providing all desired information during the booking process. An effective car rental booking system automatically update your vehicle availability and send out detail fully automated invoice to customers email as a confirmation of the booking.
Client wants to build a mobile application similar to existing Android App of VU Cabs with delightful booking experience for customers like - Easy Onboarding, Quick Bookings, Real Time Updates, Seamless Payments, Security & Ratings.
This is the Project for my Last Year.
Taxi Go is the taxi Booking system made on PHP Platform with MySQL as a Back-End.
This is a Self Made Project.
If any user want to see the Design of the Project it is given Below,
http://taxigo.890m.com/TaxiGo/
This is my college final field work report about online cab booking system. In this online cab booking how it works and some suggestions , analysis about cab booking . All information is in the report. ..
Thank you..
The document describes a cab booking system software developed by Custom Soft that allows customers to book and manage cab rides. The software provides features like registration, booking confirmation by SMS/email, choosing routes, tracking speed and location, prepaid and postpaid payment options, and an emergency panic button. Custom Soft is an experienced software development company that offers this cab booking solution along with guaranteed satisfaction, flexible engagement models, proven methodologies, and 24/7 support.
This document appears to be a project report submitted by three students - Tanya Bhadauria, Somendra Singh, and Vaibhav - for their Bachelor of Technology degree in Information Technology. It describes the development of an "Online Vehicle Rental System" under the supervision of Mr. Ramesh Sahoo. The report includes sections on introduction, software and hardware requirements, literature survey, software requirement analysis, coding, output screens, and conclusions.
Online booking system for car rental companies - Bespoke Car Rental Booking E...Orisys Infotech
A powerful and easy to use reservation system can interact with your guests automatically ensure more bookings by providing all desired information during the booking process. An effective car rental booking system automatically update your vehicle availability and send out detail fully automated invoice to customers email as a confirmation of the booking.
Client wants to build a mobile application similar to existing Android App of VU Cabs with delightful booking experience for customers like - Easy Onboarding, Quick Bookings, Real Time Updates, Seamless Payments, Security & Ratings.
This is the Project for my Last Year.
Taxi Go is the taxi Booking system made on PHP Platform with MySQL as a Back-End.
This is a Self Made Project.
If any user want to see the Design of the Project it is given Below,
http://taxigo.890m.com/TaxiGo/
This document describes Zook, an online car rental system that aims to act as an intermediary between car owners and renters. The system allows car owners to register their vehicles for rental online and renters to search for and rent cars online without having to visit an office location. Previously, car owners had to register vehicles at branch offices and renters had to register as clients at offices to rent cars. The new online system aims to reduce paperwork, time, and allow everything to be done remotely for more convenience and efficiency.
This document provides an overview of a bus ticket reservation system application. It includes sections on the problem statement, hardware/software requirements, screenshots of the application interface, and an entity relationship diagram. The application allows users to manage bus data including routes and seats, inquire about seat availability, register and search tickets, cancel tickets, and view fare lists. Administrators can manage user and bus data while employees can book tickets and change passwords.
vehicle management system project reportAshik Khan
The document provides a software requirements specification for a vehicle transportation management system called "Dhaka vehicle system". The system will allow administrators, approvers, transport staff and employees to manage vehicle categories, routes, and employee requests for bus or cab transportation.
The summary includes key functional requirements: administrators can manage users, employee data, vehicle categories and details, routes, and transportation requests. Approvers can view data and approve cab requests. Transport staff can view data and facilitate transportation. The system aims to reduce manual effort over the current system.
This is a web based platform for rent vehicles which is mainly intended for tourism purposes. It’s a solution for finding rental vehicles in urban as well as rural areas. The website act as interactive platform to connect various vehicle rental services with the customers in need. Customers and rental services will be at the opposite ends of the platform. We use .NET and MSSQL at the front end and back end respectively.
The document outlines a cab booking system project created by a team of 5 students under the guidance of Sreeranjan NSCI. The project uses Python and Tkinter for the GUI. It allows users to register, book cabs by entering pickup/drop off locations, view receipts, and more. Design documents include use case diagrams, class diagrams, sequence diagrams and activity diagrams. The system was implemented using Python and tested with sample test cases to check functionality. Results screens show examples of registration and booking pages. Future work may involve additional features.
This document provides an overview of an online taxi booking system. It describes the existing manual system and outlines the benefits of developing a computerized system. The proposed system would allow customers to book taxis online and for administrators to maintain driver, vehicle and billing details digitally. The system would have modules for administration, customers and reports. It then covers the system design including data flow diagrams, database design with tables for customers, bookings, drivers, vehicles and bills, and input screen designs. Hardware, software and technology requirements are also specified.
The document provides an overview and requirements for developing a Bus Booking Management System. It includes sections on the background, objectives, scope, methodology used, and literature review of similar systems. It also outlines specific requirements such as user interfaces, hardware and software interfaces, functional and non-functional requirements. The system will allow for passenger reservations and bookings, tracking ticket sales, and general management functions like user administration and report generation. Performance requirements and data to be stored in the logical database are also defined.
This document summarizes a student project on developing a Prepaid Taxi Management System. The project was submitted by 5 students to fulfill the requirements for a Bachelor's degree in Business Administration. The project aims to partially computerize the processes of a prepaid taxi management system, like generating bookings and recording customer and route information, to make the processes less laborious than the existing manual system. The project uses Visual Basic 6.0 for the front end and MS Access 2000 for the back end. It provides an overview of the existing manual system and outlines the scope, objectives and feasibility study of the proposed computerized system.
The document discusses the introduction and background of a vehicle management system. It aims to automate the manual processes for managing vehicle records like maintenance of large registers. The system will use web technology to store and retrieve vehicle details, manage book records and issue books to students. It will generate customized reports and reduce paper work. The objectives are to overcome limitations of manual systems, automate processes, save manpower and time, provide error handling, and generate different types of reports for management and security. The scope is to enhance current facilities and apply future security measures for students and management.
This document describes a railway reservation system project created by three computer engineering students. It includes requirements, UML diagrams, and an abstract. The functional requirements are secure registration, payment, and account management. Non-functional requirements include performance, quality, and security. Technical requirements include using a browser, Apache server, MySQL, PHP, JavaScript, HTML and CSS. UML diagrams created for the project include class, object, use case, activity, statechart, sequence, collaboration, deployment, and package diagrams. These diagrams model different aspects of the railway reservation system.
This document summarizes an automated car rental system project built in Java. The system allows customers to register and administrators to manage the rental business. It records customer and booking details to simplify tasks and reduce paperwork. Key features include registering customers, viewing car information, booking cars, and updating rental prices. The project uses Java 8, Eclipse IDE, and a Windows OS. Screenshots demonstrate adding cars and customers, searching for cars, and viewing bookings. Future enhancements could include validating customer contact details and sending reservation confirmations by email.
This document summarizes a company vehicle management system that uses a transport portal application to allocate buses and their timings to users. It describes the modules for bus requests, cab requests, approvals, transport categories and routes, employee and vehicle information, and administration and reporting. The system aims to reduce manual effort and manage time constraints when handling vehicle details, transport categories, routes, and requests. It keeps data centralized and available to all users simultaneously while providing management reports to track transport facility usage.
Railway Reservation System - Requirement EngineeringDanish Javed
It's a presentation which is dealing with the requirements of the railway ticket reservation system with all details.
Topic: Requirement Engineering in Software Engineering
This document outlines the requirements for a proposed bus reservation system. It includes sections on existing systems, objectives, hardware and software requirements, use cases, data flow diagrams, and more. The system will allow users to register, update profiles, generate and renew passenger reservations, authenticate users, enable online payment, and provide reliability, availability, and security. An incremental software development lifecycle model will be used to generate working software quickly through iterative design, implementation, and testing cycles.
SCHOOL BUS ROUTING MANAGEMENT SYSTEM [FINAL]ayushi goyal
This document presents a software engineering project report on a School Bus Routing Management System. It was created by three students at Shyama Prasad Mukherji College for Women, University of Delhi, under the guidance of Dr. Baljeet Kaur. The project aims to develop a software using GIS techniques to track school buses and manage student and staff databases. Key features include student registration, login functionality for parents/guardians, and a "track" feature to monitor bus routes and locations in real-time. The waterfall model was used for the software development process.
The document describes an online bus ticket reservation system that allows customers to book tickets, check availability, and track reservations online instead of having to visit booking counters in person. It includes requirements for functionality like maintaining customer profiles and booking details in a database, calculating fares automatically based on distance and age, and providing search, booking and cancellation features for employees to manage reservations. Tables to store information about buses, routes, bookings and more are also outlined.
This is an automated application software for Car booking . This application is used in the Car rental Company for managing the Car booking efficiently.
The primary project goals consist of:
To provide a user-friendly and time efficient application for both the customers and the company employees
The employees of the company are able to keep the track of the renting process easily when any submission is made on an auto.
To keep the whole data into a database system. It not only
provides a quick access to the desired data but also it helps to
organize and store the data easily. In order to meet with the
security issues, these data are not allowed to be reachable since they will include private data.
To provide the payment, date and time interval phases to the renting customers.
This software, called ‘Ghost Rental Data’, will allow for the company to access their database securely and safely in a user-friendly online environment. Allowing for them to change car information, the software will be in sync with the both the Web App, allowing for real-time up-to-date services for their customers. Both registered and non-registered users will be able to search car rentals by price, model, seating and any other potential searches. They will also be able to select and pay for the service. The consumer would choose on checkout if they will come to pick up the car of if they want the car to be brought to them. The company would instantly get that service demand through their 24/7 car rental support built directly into the software and either reserve the car for pickup or send out a pickup truck carrying the new rental car to the desired location upon time request. There should be a Web App version for the software to connect with for those who wish for a quick car rental servicer. The Web App will be responsive to any device using it. This allows for consumers to access the service from any sort of hardware device: tablet, computer, mobile devices, and so on. The software itself will be available on all computer platforms that are running any aspect of Linux, Windows 7, Windows 8, and Mac operating systems. The software will also be easily available to Windows 10 when it comes out later in the year. Besides, computers, the software has a minimal version for tablets for those working for the company to easily navigate through customer orders when they are on the road or simply away from the computer. The compatibility will still be available whenever they wish to provide their employees with them nonetheless
The document describes an online bus reservation system project report submitted for an M.Sc. IT program. The project aims to develop a system that allows users to register, search and book bus tickets online. It includes requirements like managing bus, route and booking information as an admin and allowing users to select seats, book tickets and cancel bookings. The system was built using technologies like ASP.NET MVC, SQL Server 2012 and deployed on a Windows server with Chrome as the preferred browser. It features functionalities for registration, login, booking management, report generation and admin controls.
A final year internship project submitted in partial fulfillment of the requirement for the degree of Bachelor of Science in Computer Science and Information Technology awarded by Tribhuvan University
This document describes Zook, an online car rental system that aims to act as an intermediary between car owners and renters. The system allows car owners to register their vehicles for rental online and renters to search for and rent cars online without having to visit an office location. Previously, car owners had to register vehicles at branch offices and renters had to register as clients at offices to rent cars. The new online system aims to reduce paperwork, time, and allow everything to be done remotely for more convenience and efficiency.
This document provides an overview of a bus ticket reservation system application. It includes sections on the problem statement, hardware/software requirements, screenshots of the application interface, and an entity relationship diagram. The application allows users to manage bus data including routes and seats, inquire about seat availability, register and search tickets, cancel tickets, and view fare lists. Administrators can manage user and bus data while employees can book tickets and change passwords.
vehicle management system project reportAshik Khan
The document provides a software requirements specification for a vehicle transportation management system called "Dhaka vehicle system". The system will allow administrators, approvers, transport staff and employees to manage vehicle categories, routes, and employee requests for bus or cab transportation.
The summary includes key functional requirements: administrators can manage users, employee data, vehicle categories and details, routes, and transportation requests. Approvers can view data and approve cab requests. Transport staff can view data and facilitate transportation. The system aims to reduce manual effort over the current system.
This is a web based platform for rent vehicles which is mainly intended for tourism purposes. It’s a solution for finding rental vehicles in urban as well as rural areas. The website act as interactive platform to connect various vehicle rental services with the customers in need. Customers and rental services will be at the opposite ends of the platform. We use .NET and MSSQL at the front end and back end respectively.
The document outlines a cab booking system project created by a team of 5 students under the guidance of Sreeranjan NSCI. The project uses Python and Tkinter for the GUI. It allows users to register, book cabs by entering pickup/drop off locations, view receipts, and more. Design documents include use case diagrams, class diagrams, sequence diagrams and activity diagrams. The system was implemented using Python and tested with sample test cases to check functionality. Results screens show examples of registration and booking pages. Future work may involve additional features.
This document provides an overview of an online taxi booking system. It describes the existing manual system and outlines the benefits of developing a computerized system. The proposed system would allow customers to book taxis online and for administrators to maintain driver, vehicle and billing details digitally. The system would have modules for administration, customers and reports. It then covers the system design including data flow diagrams, database design with tables for customers, bookings, drivers, vehicles and bills, and input screen designs. Hardware, software and technology requirements are also specified.
The document provides an overview and requirements for developing a Bus Booking Management System. It includes sections on the background, objectives, scope, methodology used, and literature review of similar systems. It also outlines specific requirements such as user interfaces, hardware and software interfaces, functional and non-functional requirements. The system will allow for passenger reservations and bookings, tracking ticket sales, and general management functions like user administration and report generation. Performance requirements and data to be stored in the logical database are also defined.
This document summarizes a student project on developing a Prepaid Taxi Management System. The project was submitted by 5 students to fulfill the requirements for a Bachelor's degree in Business Administration. The project aims to partially computerize the processes of a prepaid taxi management system, like generating bookings and recording customer and route information, to make the processes less laborious than the existing manual system. The project uses Visual Basic 6.0 for the front end and MS Access 2000 for the back end. It provides an overview of the existing manual system and outlines the scope, objectives and feasibility study of the proposed computerized system.
The document discusses the introduction and background of a vehicle management system. It aims to automate the manual processes for managing vehicle records like maintenance of large registers. The system will use web technology to store and retrieve vehicle details, manage book records and issue books to students. It will generate customized reports and reduce paper work. The objectives are to overcome limitations of manual systems, automate processes, save manpower and time, provide error handling, and generate different types of reports for management and security. The scope is to enhance current facilities and apply future security measures for students and management.
This document describes a railway reservation system project created by three computer engineering students. It includes requirements, UML diagrams, and an abstract. The functional requirements are secure registration, payment, and account management. Non-functional requirements include performance, quality, and security. Technical requirements include using a browser, Apache server, MySQL, PHP, JavaScript, HTML and CSS. UML diagrams created for the project include class, object, use case, activity, statechart, sequence, collaboration, deployment, and package diagrams. These diagrams model different aspects of the railway reservation system.
This document summarizes an automated car rental system project built in Java. The system allows customers to register and administrators to manage the rental business. It records customer and booking details to simplify tasks and reduce paperwork. Key features include registering customers, viewing car information, booking cars, and updating rental prices. The project uses Java 8, Eclipse IDE, and a Windows OS. Screenshots demonstrate adding cars and customers, searching for cars, and viewing bookings. Future enhancements could include validating customer contact details and sending reservation confirmations by email.
This document summarizes a company vehicle management system that uses a transport portal application to allocate buses and their timings to users. It describes the modules for bus requests, cab requests, approvals, transport categories and routes, employee and vehicle information, and administration and reporting. The system aims to reduce manual effort and manage time constraints when handling vehicle details, transport categories, routes, and requests. It keeps data centralized and available to all users simultaneously while providing management reports to track transport facility usage.
Railway Reservation System - Requirement EngineeringDanish Javed
It's a presentation which is dealing with the requirements of the railway ticket reservation system with all details.
Topic: Requirement Engineering in Software Engineering
This document outlines the requirements for a proposed bus reservation system. It includes sections on existing systems, objectives, hardware and software requirements, use cases, data flow diagrams, and more. The system will allow users to register, update profiles, generate and renew passenger reservations, authenticate users, enable online payment, and provide reliability, availability, and security. An incremental software development lifecycle model will be used to generate working software quickly through iterative design, implementation, and testing cycles.
SCHOOL BUS ROUTING MANAGEMENT SYSTEM [FINAL]ayushi goyal
This document presents a software engineering project report on a School Bus Routing Management System. It was created by three students at Shyama Prasad Mukherji College for Women, University of Delhi, under the guidance of Dr. Baljeet Kaur. The project aims to develop a software using GIS techniques to track school buses and manage student and staff databases. Key features include student registration, login functionality for parents/guardians, and a "track" feature to monitor bus routes and locations in real-time. The waterfall model was used for the software development process.
The document describes an online bus ticket reservation system that allows customers to book tickets, check availability, and track reservations online instead of having to visit booking counters in person. It includes requirements for functionality like maintaining customer profiles and booking details in a database, calculating fares automatically based on distance and age, and providing search, booking and cancellation features for employees to manage reservations. Tables to store information about buses, routes, bookings and more are also outlined.
This is an automated application software for Car booking . This application is used in the Car rental Company for managing the Car booking efficiently.
The primary project goals consist of:
To provide a user-friendly and time efficient application for both the customers and the company employees
The employees of the company are able to keep the track of the renting process easily when any submission is made on an auto.
To keep the whole data into a database system. It not only
provides a quick access to the desired data but also it helps to
organize and store the data easily. In order to meet with the
security issues, these data are not allowed to be reachable since they will include private data.
To provide the payment, date and time interval phases to the renting customers.
This software, called ‘Ghost Rental Data’, will allow for the company to access their database securely and safely in a user-friendly online environment. Allowing for them to change car information, the software will be in sync with the both the Web App, allowing for real-time up-to-date services for their customers. Both registered and non-registered users will be able to search car rentals by price, model, seating and any other potential searches. They will also be able to select and pay for the service. The consumer would choose on checkout if they will come to pick up the car of if they want the car to be brought to them. The company would instantly get that service demand through their 24/7 car rental support built directly into the software and either reserve the car for pickup or send out a pickup truck carrying the new rental car to the desired location upon time request. There should be a Web App version for the software to connect with for those who wish for a quick car rental servicer. The Web App will be responsive to any device using it. This allows for consumers to access the service from any sort of hardware device: tablet, computer, mobile devices, and so on. The software itself will be available on all computer platforms that are running any aspect of Linux, Windows 7, Windows 8, and Mac operating systems. The software will also be easily available to Windows 10 when it comes out later in the year. Besides, computers, the software has a minimal version for tablets for those working for the company to easily navigate through customer orders when they are on the road or simply away from the computer. The compatibility will still be available whenever they wish to provide their employees with them nonetheless
The document describes an online bus reservation system project report submitted for an M.Sc. IT program. The project aims to develop a system that allows users to register, search and book bus tickets online. It includes requirements like managing bus, route and booking information as an admin and allowing users to select seats, book tickets and cancel bookings. The system was built using technologies like ASP.NET MVC, SQL Server 2012 and deployed on a Windows server with Chrome as the preferred browser. It features functionalities for registration, login, booking management, report generation and admin controls.
A final year internship project submitted in partial fulfillment of the requirement for the degree of Bachelor of Science in Computer Science and Information Technology awarded by Tribhuvan University
How digital marketing creates user engagement , summer internship project rep...Priyansh Kesarwani
The document is a project report submitted by Priyansh Kesarwani to partial fulfillment of the requirements for the award of a Master of Business Administration degree. The report analyzes how digital marketing creates user engagement for Xetlynx Autocorp's automotive services. It includes an introduction to the Indian automobile industry, Xetlynx Autocorp's profile and services, research methodology used including data collection through questionnaires, data analysis and interpretation of the findings, conclusions, and recommendations. The research aims to understand customer perceptions and attitudes toward using a digital app for automotive repairs and services to increase user engagement for Xetlynx Autocorp.
The document discusses the successful implementation of barcoding technology at Safexpress Pvt Ltd to address the problem of short and excess material during loading and unloading. Interns trained employees on using barcode scanners to track shipments and ensure accurate counts. Testing at three hubs found the new process improved productivity. Technology benefits include reduced claims, performance evaluation, and optimization of the logistics network using real-time data captured from scanners.
Parking space in the heart of Pakistan, Lahore, is the need of the people as well as a revenue-generating source for the City District Government, Lahore (Now MCL). For a long time, the parking sites were auctioned to contractors by the CDGL. After the contract was awarded, a small fee was deposited in the Government treasury but the charges were arbitrarily charged causing revenue loss to the Government.
Looking into the matter above, CDGL moved a summery to the CM for making a parking authority who would enter into a Private Public Partnership with a single contractor, who would modernize the parking by introducing latest technology and develop parking that, would facilitate the public as well as generate revenue for the Government. The project ran into jeopardy, as the awarding of contract got late and the authority having no previous Parking Management experience re-employed, either the contractors themselves who used to run the sites previously or the employees of the contractors. The contractors where used to the “Parchi System” that still exists, leaving the government with the same revenue embezzlement and loss as before.
The aim of the project is to develop a Mobile Based Parking Revenue Collection System, with a Web Based Portal, to facilitate the Government to collect and manage the revenue and monitor activities at the parking sites on real time basis and get rid of the Parchi System. Other than the local Governments, this system can be applicable to Hospital managements or Mall managements to operate their parking and can use this software to monitor their revenue.
This document is a project report submitted by Samhita Prajapati to fulfill the requirements for a Bachelor of Engineering degree in Production Engineering. The report details two projects completed during an internship at Tenneco Automotive Pvt. Ltd: 1) Streamlining the program management tracking system for original equipment manufacturers by creating a centralized database using Excel VBA to track project statuses, and 2) Conducting a time study of a muffler end spinning machine to calculate production rates. The report includes an introduction, literature review, description of the program sheets created, screenshots, conclusions for each project, bibliography, and a section on personal experiences during the internship.
This document is a summer project report submitted by Kumar Rama Shankar to track customer awareness of emergency and online services offered by Exide batteries in Pune, India. It includes an executive summary that finds overall customer awareness of these services is low. It recommends Exide improve communication methods to increase awareness of services like their Bat-Mobile emergency roadside assistance and Battery Mall online store. The report also provides background on Exide, its products, services, and facilities to understand the context of the study.
This document describes a student project on developing an automated system for an auto mobile service station. It outlines the objectives of the project, the proposed system, phases of the system development life cycle used (initiation, concept development, planning, requirements analysis, design, development, integration and testing, implementation), and includes sections on flowchart, source code, output, testing, and hardware/software requirements. The aim is for students to gain experience in applying programming skills to solve a real-world problem.
project on smart car parking. automatic bill generation technique. individual timer system to calculate time. even odd day wise parking as per parking rule by government of india
This document provides a summary of a final project report for a MobiQuiz system. The system allows students to take exams using SMS on mobile phones or through an online interface. It aims to reduce resource scarcity and paper-based work for educational institutions. Key sections include requirements gathering and analysis, project planning and methodology, system design details, and deployment information. The system provides features for faculty to create and schedule exams and for students to take and submit exams on their mobile phones or online.
This chapter provides an introduction and background to the internship report. It briefly discusses the history of the automobile industry in India, highlighting key developments from the 1920s onwards. The chapter then introduces the organization where the internship was conducted - Mandovi Motors Private Limited, a leading automobile dealership in Mangalore. Finally, it outlines the objectives and structure of the internship report, which focuses on studying salesmanship practices at Mandovi Motors with reference to Maruti Suzuki vehicles.
At present scenario, productivity and economics of machining work pieces in large
quantity is greatly affected by use of work holding devices like fixture. To achieve
require accuracy with reduced rework and easy handling, fixtures are provided. This
project is about designing the fixture for pressing bearing inside the crank case. For
this purpose of designing and analysing the modelling software known as solid works is
to be used. The fixture is design mainly to get multiple bearing pressed on crank case
while keeping it stable and to get the accuracy of press within tolerance limit.
25310916 project-on-customer-satisfaction-towards-mobile-service-providersHiral Shah
This document appears to be a project report on customer satisfaction with mobile service providers in India. It includes an introduction, theoretical background on topics like customer satisfaction and the telecom industry, research objectives and limitations. It also outlines the research methodology, data analysis and interpretation, and conclusion. The report was submitted in partial fulfillment of requirements for a postgraduate diploma in business management.
This document is an internship report submitted by Nimesh Sitaula to St. Xavier's College as part of the requirements for a Bachelor of Science degree in Computer Science and Information Technology. The internship was conducted at App Miller Pvt. Ltd., where the objective was to promote the company's web applications through search engine optimization. The report provides background information on search engine optimization and the software industry. It then describes App Miller, including its organization structure and services. The bulk of the report discusses the analysis, strategy, and implementation of search engine optimization activities conducted during the internship.
This document describes an Android application called AMIZONER that was created to allow students to easily check their attendance records from Amity University's student portal. The application logs into the student portal using HTTPS, parses the attendance details, stores them locally in an SQLite database. It then displays the computed attendance information to users in a user-friendly way. The application was created using technologies like HTTPS POST/GET, HTML parsing, SQLite database, and the Android platform. It also includes features for server-client communication using Google App Engine and monitoring application usage with Google Analytics and monetization with advertisements.
This document is a project report submitted by Amit Ajit Patil to the University of Mumbai for their B.Sc. in Information Technology degree. The report details the development of an online tours and travels system for Prafulla Tours and Travels in Andheri, Mumbai. The current manual system used by Prafulla Tours has several limitations including a lack of online booking and coordination between branches. The proposed online system will address these limitations by allowing online booking, integrating all business processes, and providing quick access to information for administrators and customers. The report covers planning, design, and development phases including feasibility analysis, requirements gathering, system design diagrams, database structure, and test plans.
This document certifies that the project report titled "JOB PORTAL" was completed by three students at Manyawar Kansi Ram Engineering College of Information Technology under the guidance of their professor. The project aims to develop an online job portal for the college's placement department. It allows students to upload CVs and companies to search for candidates. The project was developed using ASP.Net, MS SQL Server 2008, and a client-server architecture with security and accessibility for different user types.
This document provides information about a student project on a courier service system. It includes a certificate confirming the student successfully completed the project, a table of contents listing sections like introduction, objectives, system development life cycle phases, flow chart, source code, and more. The project follows the typical system development life cycle phases of initiation, planning, analysis, design, development, testing, and implementation.
GYROSCOPIC STABILIZATION OF UNSTABLE VEHICLES
A final year project. A though business model canvas is available here and prepared for GTU (Gujarat Technological University) under Govt. Engg. College Bharuch.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Similar to Online Cab Booking (EpicRide 24x7) (20)
Discover the latest insights on Data Driven Maintenance with our comprehensive webinar presentation. Learn about traditional maintenance challenges, the right approach to utilizing data, and the benefits of adopting a Data Driven Maintenance strategy. Explore real-world examples, industry best practices, and innovative solutions like FMECA and the D3M model. This presentation, led by expert Jules Oudmans, is essential for asset owners looking to optimize their maintenance processes and leverage digital technologies for improved efficiency and performance. Download now to stay ahead in the evolving maintenance landscape.
Prediction of Electrical Energy Efficiency Using Information on Consumer's Ac...PriyankaKilaniya
Energy efficiency has been important since the latter part of the last century. The main object of this survey is to determine the energy efficiency knowledge among consumers. Two separate districts in Bangladesh are selected to conduct the survey on households and showrooms about the energy and seller also. The survey uses the data to find some regression equations from which it is easy to predict energy efficiency knowledge. The data is analyzed and calculated based on five important criteria. The initial target was to find some factors that help predict a person's energy efficiency knowledge. From the survey, it is found that the energy efficiency awareness among the people of our country is very low. Relationships between household energy use behaviors are estimated using a unique dataset of about 40 households and 20 showrooms in Bangladesh's Chapainawabganj and Bagerhat districts. Knowledge of energy consumption and energy efficiency technology options is found to be associated with household use of energy conservation practices. Household characteristics also influence household energy use behavior. Younger household cohorts are more likely to adopt energy-efficient technologies and energy conservation practices and place primary importance on energy saving for environmental reasons. Education also influences attitudes toward energy conservation in Bangladesh. Low-education households indicate they primarily save electricity for the environment while high-education households indicate they are motivated by environmental concerns.
Design and optimization of ion propulsion dronebjmsejournal
Electric propulsion technology is widely used in many kinds of vehicles in recent years, and aircrafts are no exception. Technically, UAVs are electrically propelled but tend to produce a significant amount of noise and vibrations. Ion propulsion technology for drones is a potential solution to this problem. Ion propulsion technology is proven to be feasible in the earth’s atmosphere. The study presented in this article shows the design of EHD thrusters and power supply for ion propulsion drones along with performance optimization of high-voltage power supply for endurance in earth’s atmosphere.
Gas agency management system project report.pdfKamal Acharya
The project entitled "Gas Agency" is done to make the manual process easier by making it a computerized system for billing and maintaining stock. The Gas Agencies get the order request through phone calls or by personal from their customers and deliver the gas cylinders to their address based on their demand and previous delivery date. This process is made computerized and the customer's name, address and stock details are stored in a database. Based on this the billing for a customer is made simple and easier, since a customer order for gas can be accepted only after completing a certain period from the previous delivery. This can be calculated and billed easily through this. There are two types of delivery like domestic purpose use delivery and commercial purpose use delivery. The bill rate and capacity differs for both. This can be easily maintained and charged accordingly.
Embedded machine learning-based road conditions and driving behavior monitoringIJECEIAES
Car accident rates have increased in recent years, resulting in losses in human lives, properties, and other financial costs. An embedded machine learning-based system is developed to address this critical issue. The system can monitor road conditions, detect driving patterns, and identify aggressive driving behaviors. The system is based on neural networks trained on a comprehensive dataset of driving events, driving styles, and road conditions. The system effectively detects potential risks and helps mitigate the frequency and impact of accidents. The primary goal is to ensure the safety of drivers and vehicles. Collecting data involved gathering information on three key road events: normal street and normal drive, speed bumps, circular yellow speed bumps, and three aggressive driving actions: sudden start, sudden stop, and sudden entry. The gathered data is processed and analyzed using a machine learning system designed for limited power and memory devices. The developed system resulted in 91.9% accuracy, 93.6% precision, and 92% recall. The achieved inference time on an Arduino Nano 33 BLE Sense with a 32-bit CPU running at 64 MHz is 34 ms and requires 2.6 kB peak RAM and 139.9 kB program flash memory, making it suitable for resource-constrained embedded systems.
Null Bangalore | Pentesters Approach to AWS IAMDivyanshu
#Abstract:
- Learn more about the real-world methods for auditing AWS IAM (Identity and Access Management) as a pentester. So let us proceed with a brief discussion of IAM as well as some typical misconfigurations and their potential exploits in order to reinforce the understanding of IAM security best practices.
- Gain actionable insights into AWS IAM policies and roles, using hands on approach.
#Prerequisites:
- Basic understanding of AWS services and architecture
- Familiarity with cloud security concepts
- Experience using the AWS Management Console or AWS CLI.
- For hands on lab create account on [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
# Scenario Covered:
- Basics of IAM in AWS
- Implementing IAM Policies with Least Privilege to Manage S3 Bucket
- Objective: Create an S3 bucket with least privilege IAM policy and validate access.
- Steps:
- Create S3 bucket.
- Attach least privilege policy to IAM user.
- Validate access.
- Exploiting IAM PassRole Misconfiguration
-Allows a user to pass a specific IAM role to an AWS service (ec2), typically used for service access delegation. Then exploit PassRole Misconfiguration granting unauthorized access to sensitive resources.
- Objective: Demonstrate how a PassRole misconfiguration can grant unauthorized access.
- Steps:
- Allow user to pass IAM role to EC2.
- Exploit misconfiguration for unauthorized access.
- Access sensitive resources.
- Exploiting IAM AssumeRole Misconfiguration with Overly Permissive Role
- An overly permissive IAM role configuration can lead to privilege escalation by creating a role with administrative privileges and allow a user to assume this role.
- Objective: Show how overly permissive IAM roles can lead to privilege escalation.
- Steps:
- Create role with administrative privileges.
- Allow user to assume the role.
- Perform administrative actions.
- Differentiation between PassRole vs AssumeRole
Try at [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
Rainfall intensity duration frequency curve statistical analysis and modeling...bijceesjournal
Using data from 41 years in Patna’ India’ the study’s goal is to analyze the trends of how often it rains on a weekly, seasonal, and annual basis (1981−2020). First, utilizing the intensity-duration-frequency (IDF) curve and the relationship by statistically analyzing rainfall’ the historical rainfall data set for Patna’ India’ during a 41 year period (1981−2020), was evaluated for its quality. Changes in the hydrologic cycle as a result of increased greenhouse gas emissions are expected to induce variations in the intensity, length, and frequency of precipitation events. One strategy to lessen vulnerability is to quantify probable changes and adapt to them. Techniques such as log-normal, normal, and Gumbel are used (EV-I). Distributions were created with durations of 1, 2, 3, 6, and 24 h and return times of 2, 5, 10, 25, and 100 years. There were also mathematical correlations discovered between rainfall and recurrence interval.
Findings: Based on findings, the Gumbel approach produced the highest intensity values, whereas the other approaches produced values that were close to each other. The data indicates that 461.9 mm of rain fell during the monsoon season’s 301st week. However, it was found that the 29th week had the greatest average rainfall, 92.6 mm. With 952.6 mm on average, the monsoon season saw the highest rainfall. Calculations revealed that the yearly rainfall averaged 1171.1 mm. Using Weibull’s method, the study was subsequently expanded to examine rainfall distribution at different recurrence intervals of 2, 5, 10, and 25 years. Rainfall and recurrence interval mathematical correlations were also developed. Further regression analysis revealed that short wave irrigation, wind direction, wind speed, pressure, relative humidity, and temperature all had a substantial influence on rainfall.
Originality and value: The results of the rainfall IDF curves can provide useful information to policymakers in making appropriate decisions in managing and minimizing floods in the study area.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
1. A
PROJECT REPORT
on
ONLINE CAB BOOKING
OF
“EPIC RIDE 24x7”
Submitted for partial fulfillment of the requirements for the Award of the Degree of
Bachelor of Technology
in
Computer Science & Engineering
By
Shadan Khan (1449210083)
Sharukh Khan (1449210084)
Md. Irshad Alam (1449210039)
Guided by:
Ms. Maria Malik (Asst.Professor) Department of Computer Science & Engineering, KCC
Institute of Technology and Management, Greater Noida (U.P.)
(Affiliated to Dr. A.P.J. Abdul Kalam Technical University,Lucknow, India)
May, 2018
2. Page | 2
CANDIDATES’ DECLARATION
I hereby declare that this submission is my own work and that, to the best of my knowledge and
belief, it contains no material previously published or written by another person nor material
which to a substantial extent has been accepted for the award of any other degree or diploma of
the university or other institute of higher learning, except where due acknowledgment has been
made in the text.
Name: Shadan Khan
Roll No. 1449210083
Name: Sharukh Khan
Roll No. 1449210084
Name: Md. Irshad Alam
Roll No. 1449210039
3. Page | 3
CERTIFICATE
This is to certify that Project Report entitled “online cab booking” which is submitted by Shadan
Khan (1449210083), Sharukh Khan (1449210084) and Md.Irshad Alam (1449210039) in partial
fulfillment of the requirement for the award of degree B.Tech. in Department of Computer
Science and Engineering of Dr. A.P.J. Abdul Kalam Technical University, is a record of the
candidate’s own work carried out by him under my supervision. The matter embodied in this
project is original and has not been submitted for the award of any other degree.
We certify that, to the best of our knowledge, this Project report does not infringe upon
anyone’s copyright nor violate any proprietary rights and that any ideas, techniques, quotations
or any other material from the work of other people included in our Project report, published or
otherwise, are fully acknowledged in accordance with the standard referencing practices. In case
of any complaints pertaining to plagiarism, we certify that we shall be solely responsible for the
same and we understand that as per norms, University can even revoke the degree conferred
upon the students submitting this Project report, in case it is found to be plagiarized.
Ms. Meha Mathur
(Supervisor)
Ms. Maria Malik
(Project Coordinator)
Dr. Mandeep Kaur
(HOD)
(External Examiner)
Name:
Designation:
Affiliation:
4. Page | 4
AKNOWLEDGEMENT
It gives us a great sense of pleasure to present the report of the B. Tech Project undertaken
during B. Tech. Final Year. We owe special debt of gratitude to Assistant Professor Maria Malik,
Department of Computer Science & Engineering, KCC Institute of Technology and
Management, Greater Noida for her constant support and guidance throughout the course of our
work. Her sincerity, thoroughness and perseverance have been a constant source of inspiration
for us. It is only her cognizant efforts that our endeavors have seen light of the day.
We also take the opportunity to acknowledge the contribution of Professor Dr. Mandeep Kaur,
HOD, Department of Computer Science & Engineering, KCC Institute of Technology and
Management, Greater Noida for her full support and assistance during the development of the
project.
We also acknowledge the contribution of all faculty members of the department for their kind
assistance and cooperation during the development of our project. Last but not the least, we
acknowledge our friends for their contribution in the completion of the project.
Signature: Signature:
Name: Shadan Khan Name: Sharukh Khan
Roll No.:1449210083 Roll No.:1449210084
Signature:
Name: Mohd.Irshad Alam
Roll No.:1449210039
5. Page | 5
ABSTRACT
This project is being considered in order to reduce and eliminate loss of customers to
competitors, and save the company from folding up. The current system is manual and it is time
consuming. It is also cost ineffective, and average return is low and diminishing. Currently,
customers can call or walk-in in order to rent or reserve a vehicle. The staff of the company will
check their file to see which vehicle is available for rental. The current system is error prone and
customers are dissatisfied. The goal of this project is to automate vehicle rental and reservation
so that customers do not need to walk-in or call in order to reserve a vehicle.
They can go online and reserve any kind of vehicle they want from the inventory of available
vehicles. Even when a customer chooses to walk-in, computers are available for him to go online
and perform his reservation. When he choose to reserve by phone, any of the customer service
representatives can help him reserve the vehicle speedily and issue him a reservation number.
The ER 24x7 will maintain the database of all vehicles the company has. It will also keep track
of all vehicle reservation and return. Reports will be generated bi-weekly. Reports for the
Accounts Manager will detail the cost incurred to maintain each vehicle and revenue accrued on
each vehicle.
6. Page | 6
TABLE OF CONTENTS
Page
DECLARATION........................................................................................................2
CERTIFICATE..........................................................................................................3
ACKNOWLEDGEMENTS ......................................................................................4
ABSTRACT................................................................................................................5
LIST OF FIGURES ...................................................................................................9
LIST OF TABLES....................................................................................................10
CHAPTER 1 INTRODUCTION.............................................................................11
1.1 PROJECT PROFILE ................................................................................11
1.2 PROBLEMS FACED BY USERS ...........................................................12
1.3 EXISTING SYSTEM………………………………………………….....12
1.4 ANALYSIS PHASE…………………………….……………….……....13
1.4.1 OBJECTIVE…………………………….…………………..…..….….13
1.5 IMPORTANT TERMS AND THEIR DEFINITIONS...………………..13
1.5.1 NAVIGATION………………………………………………………...13
1.5.2 HIRING……………………..………………………………………....14
1.5.3 DISPATCHING……………………...………………………………..14
1.5.4 DRIVERS AND COMPANIES…………………………….………....16
1.5.5 ENVIRONMENTAL CONCERNS ………………..…………..........16
1.5.6 VEHICLES …………………………………………………………....17
1.5.7 TAXICAB LIVER ………………………………………..…………...17
1.6 FEASIBILITY STUDY ……………………..………………….….......17
1.6.1 TECHNICAL FEASIBILITIES………………………...…………......18
1.6.2 OPERARIONAL FEASIBILITIES…………………………………....18
1.6.3 ECONOMIC FEASIBILITIES………………………..……………....18
7. Page | 7
1.6.4 SCHEDULE FEASIBILITIES………………………………………….19
1.6.5 SPECIFICATION FEASIBILITIES……………..…………………......20
1.6.6 INFORMATION FEASIBILITIES…………………………………......20
1.6.7 MOTIVATIONAL FEASIBILITIES……………....……………………20
1.6.8 LEGAL AND ETHNICAL FEASIBILITIES………….…….................20
CHAPTER 2 BACK GROUND & RELATED WORK………….………..............21
2.1 MINIMUM HARDWARE AND SOFTWARE …………………………..21
2.1.1 SERVER SIDE HARDWARE AND SOFTWARE…...…………...........21
2.1.2 CLIENT SIDE HARDWARE AND SOFTWARE…..……….……........21
2.2FUNCTIONALITY………………….………………………......................22
2.2.1 ADMIN MODULE………………………………………….……….…...22
2.2.2 USER MODULE…………………………………………….…….……..22
2.3 SYSTEM FLOW CHART……………………………………..…..............22
2.4 CLASS DIAGRAM……………..…………………………………............23
2.5 USE CASE DIAGRAM …………………………………….……….........24
2.6 DATA DICTIONARY ……………………..………………….….…........24
CHAPTER 3 METHODOLOGY & DEVELOPMENT DETAILS….………......26
3.1 SCREENSHOTS…………...………………………………………….......26
3.1.1 HOMEPAGE_1…..………...……………………………………….......26
3.1.2 HOMEPAGE_2…..………...……………………………………….......27
3.1.3 HOMEPAGE_3…..………...……………………………………….......28
3.2 EPIC RIDE 24x7 BOOKING FORM ………………………………….....29
3.3 QUERY FORM OF EPIC RIDE 24x7…………….………………….…..30
3.4 GOOGLE MAP…………………………….…………….…………….….31
3.5 PAGE NOT FOUND…………………………….…………….……….….32
3.6 OUR VEHICLES…………………………….…………….…….………..33
8. Page | 8
CHAPTER 4 RESULTS & CONCLUSION…………………………..………….34
4.1 RESULTS……………………….......................………………………….34
4.1.1 FIRST OR WELCOME SCREEN.....................………………………..34
4.1.2 BOOKING SCREEN…………….....................………………………..35
4.1.3 MAIN SCREEN………………….....................………………………..36
4.2 CONCLUSION …………….…………………………………………….37
REFERENCE……………………………………………………………..…………38
9. Page | 9
LIST OF FIGURES
Page
Figure 1.6.4: Schedule Feasibilities…………………………………………18
Figure 1.6.8: Feasibilities Flowchart………………………………....……17
Figure 2.3: System Flow Chart …………………………………………….21
Figure 2.4: Class Diagram …………………………………………………..22
Figure 2.5: Use Case Diagram ……………………………………………….23
Figure 3.1.1: Homepage_1 ……………………………………..……..……..25
Figure 3.1.2: Homepage_2………………………………….…..……..……..26
Figure 3.1.3: Homepage_3 ……………………………………..……..……..27
Figure 3.2: Epic Ride 24x7 Booking Form………………………….………28
Figure 3.3: Query Form of Epic Ride 24x7 ………………………………...29
Figure 3.4: Google Map ……………………………………………………..30
Figure 3.5: Page Not Found……………….………………………………...31
Figure 3.6: Our Vehicles…………………. ………………………………...32
Figure 4.1.1: Welcome Screen ….…………………………………………..33
Figure 4.1.2: Booking Screen ………………………………………………34
Figure 4.1.3: Main Screen …………………………………………………..35
10. Page | 10
LIST OF TABLES
Page
Table 2.6.1: User Details…………………………………………………24
Table 2.6.2: Drivers Details…………………………………….………...24
Table 2.6.3: Vehicles Details…………………………………….……….24
Table 2.6.4: User Booking Table………………………………………...24
11. Page | 11
CHAPTER 1
INTRODUCTION
Online Cab Booking System specializing in Hiring cabs to customers. It is an online system
through which customers can view available cabs; register the cabs, view profile and book cabs.
Cab booking service is a major transport service provided by the various transport operators in a
particular city. Mostly peoples use cab service for their daily transportations need. The company
must be a registered and fulfills all the requirements and security standards set by the transport
department.
Online Cab Booking System is a web based platform that allows your customers to book their
taxi's and executive taxis all online from the comfort of their own home or office. The platform
should offer an administration interface where the taxi company can manage the content, and
access all bookings and customer information. More and more Taxi companies are looking for
integrated taxi booking systems as it makes life much easier for the traveller - this is highly
important and in today's internet age people should be able to book taxis online without having
to pick up the phone and the taxi company as all their bookings are now managed via an
automated system which means they have an electronic record of future and historic bookings.
A Cab Booking/Hiring is a system that can be used temporarily for a period of time with a fee.
Hiring a car assists people to get around even when they do not have access to their own personal
vehicle or don't own a vehicle at all. The individual who want to hire/rent a car must first contact
the cab hiring company for the desire vehicle. This can be done online. At this point, this person
has to supply some information such as: dates of rental, and type of car. After these details are
worked out, the individual renting the car must present a valid Identification Card. Most
companies throughout the industry make a profit based of the type of cars. The hiring cabs are
categorized into economy, compact, compact premium; premium and luxury & customers are
free to choose any car of their choice based on their purse and availability of such car at the time
of reservation.
12. Page | 12
1.1 PROJECT PROFILE
The Epic Ride 24x7, is an online reservation system which helps the customers to book cabs
and vehicles online rather than using the traditional manual system of vehicle reservation. ER
24x7 eliminates the risk of erroneous bookings and reduces overall lead time and ensures growth
in customer satisfaction.
In the near future, the ER 24x7 shall need upgrades and expansions handling an increased
number of clients, as well as incorporating next generation technologies. The company's future
expansion in terms of size, clients, business processes shall also affect the current version of ER
24x7, therefore it is bound for the adaptations and modifications.
1.2 PROBLEMS FACED BY USERS
The problem statement of this project is to develop an online process of vehicle rental service in
Greater Noida. The current system is manual and it is time consuming as well as ineffective in
terms of returns. The staff of the vehicle rental service company will check their file to see which
vehicle is available for rental. The goal of this project is to automate vehicle rental and
reservation so that customers do not need to call and spend unnecessary time in order to reserve a
vehicle.
They can go online and reserve any kind of vehicle they want and that is available. Even when a
customer chooses to visit the booking centre to personally hire a vehicle, computers are
available for him to go online and perform his reservation. When he choose to reserve by phone,
any of the customer service representatives can help him reserve the vehicle speedily and issue
him a reservation number.
1.3 EXISTING SYSTEM
Existing system, which is the traditional system, in which client needs to go to the Cab Booking
office and book manually, which require lots physical and mental efforts. In traditional system
there are many chances of human errors like wrong entry of journey date, journey time and
destination as everything is recorded manually in a register by an employee, thereby increasing
the chances of a mis-registration. Chances of improper communication are high which may result
in delay of service. In traditional car rental system i.e. existing system the level of sharing the
information was very weak, that is when any information was shared by the customer was not
recorded in the system but only listened by the service provider which may result in loss of
relevant information which ultimately results in the delay of service.
13. Page | 13
In existing system the response time from the service was ordinary because of one-way
communication which deteriorates the market and goodwill of the organization. It also consumes
unnecessary time and efforts, thereby making it not feasible for customers who do not have time
to spare on such bookings while leading their fast lives.
1.4 ANALAYSIS PHASE
1.4.1 OBJECTIVE
The objective of this project is to automate vehicle rental and reservation so that customers do
not need to call and spend unnecessary time in order to reserve a vehicle. They can go online and
reserve any kind of vehicle they want and that is available. Even when a customer chooses to
visit the booking centre to personally hire a vehicle, computers are available for him to go online
and perform his reservation. When he choose to reserve by phone, any of the customer service
representatives can help him reserve the vehicle speedily, and issue him a reservation number.
The proposed update feature of ER 24x7 is to allow the passenger’s associates to track the
current status of the journey, also evaluating the remaining duration till the passenger reaches
its destination. The passengers will be provided with a provision to log into the system and check
the status of their journey. The vehicle tracking feature is appreciated widely at the time of
emergencies such as accidents, as at the time of an accident, the tracking device triggers an
emergency alarm that simultaneously informs the ER 24x7 attendants as well as the nearby
hospital units or medical clinics about the incident and thereby asking for an immediate help.
1.5 IMPORTANT TERMS WITH THEIR DEFINITIONS
1.5.1 NAVIGATION
Most experienced taxi drivers who have been working in the same city or region for a while
would be expected to know the most important streets and places where their customers request
to go. However, to aid the process of manual navigation and the taxi driver's memory (and the
customer's as well at times) a cab driver is usually equipped with a detailed roadmap of the area
in which they work. There is also an increasing use of GPS driven navigational systems in
wealthier countries. In London, despite the complex and haphazard road layout, such aids have
only recently been employed by a small number of 'black cab' taxi (as opposed to minicab)
drivers. Instead, they are required to undergo a demanding process of learning and testing
called The Knowledge. This typically takes around three years and equips them with a detailed
14. Page | 14
command of 25,000 streets within central London, major routes outside this area, and all
buildings and other destinations to which passengers may ask to be taken.[1]
1.5.2 HIRING
Most places allow a taxi to be "hailed" or "flagged" on the side of the street as it is approaching.
Another option is a taxi stand (sometimes also called a "cab stand," "hack stand," "taxi rank," or
"cab rank"). Taxi stands are usually located at airports, railway stations, major retail areas
(malls), hotels and other places where a large number of passengers are likely to be found. In
some places —Japan, for example— taxi stands are arranged according to the size of the taxis, so
that large- and small-capacity cabs line up separately. The taxi at the front of the line is due
(barring unusual circumstances) for the next fare. Passengers also commonly call a central
dispatch office for taxis. In some jurisdictions, private hire vehicles can only be hired from the
dispatch office, and must be assigned each fare by the office by radio or phone. Picking up
passengers off the street in these areas can lead to suspension or revocation of the driver's taxi
license, or even prosecution. A recent method for ordering a taxi is through a "Push Device".
This method can be seen with devices such as the Taxi Butler and the Taxi Button. This new
approach has created a shortcut to getting a Taxi for consumers, with the push of a button. The
push generates an order in the dispatch system and sends out a car to the location of the button
push.
Other areas may have a mix of the two systems, where drivers may respond to radio calls and
also pick up street fares. E-hailing is a system whereby passengers hire the taxi using mobile
devices. While not directly involving the call center, the taxis are still monitored by the
dispatcher through GPS tracking. It is used by services such as Get, Easy Taxi, and Grab Taxi. [2]
1.5.3 DISPATCHING
The activity of taxi fleets is usually monitored and controlled by a central office, which
provides dispatching, accounting, and human resources services to one or more taxi companies.
Taxi owners and drivers usually communicate with the dispatch office through either a 2-
way radio or a computer terminal (called a mobile data terminal). Before the innovation of radio
dispatch in the 1950s, taxi drivers would use a callbox—a special telephone at a taxi stand—to
contact the dispatch office. When a customer calls for a taxi, a trip is dispatched by either radio
or computer, via an in-vehicle mobile data terminal, to the most suitable cab. The most suitable
cab may either be the one closest to the pick-up address (often determined by GPS coordinates
15. Page | 15
nowadays) or the one that was the first to book into the "zone" surrounding the pickup address.
Cabs are sometimes dispatched from their taxi stands; a call to "Top of the 2" means that the first
cab in line at stand is supposed to pick someone up. In offices using radio dispatch, taxi locations
are often tracked using magnetic pegs on a "board"—a metal sheet with an engraved map of taxi
zones. In computerized dispatch, the status of taxis is tracked by the computer system. Taxi
frequencies are generally licensed in duplex pairs. One frequency is used for the dispatcher to
talk to the cabs, and a second frequency is used to the cabs to talk back. This means that the
drivers generally cannot talk to each other. Some cabs have a CB radio in addition to the
company radio so they can speak to each other.
In the United States, there is a Taxicab Radio Service with pairs assigned for this purpose. A taxi
company can also be licensed in the Business Radio Service. Business frequencies in the UHF
range are also licensed in pairs to allow for repeaters, though taxi companies usually use the pair
for duplex communications. Some companies do not operate their own radio system and instead
subscribe to an Specialized Mobile Radio system. The conventional radios are most suited to
companies that operate within the local area and have a high volume of radio traffic. The SMR is
more commonly used by black car services that cover a wider area, and smaller companies who
use less airtime and do not want to run their own radio systems. With the advent of public data
networks in the 1990s, operators are beginning to use PDAs and advanced mobile phones for
dispatching and tracking functions in lieu of the traditional radio.
Some small car services do not use a dispatcher at all. Instead the customers' calls are forwarded
to the cell phones of whichever drivers are on duty at the time. In many countries however, the
influence of mobile telecom operators through 8294 premium short code or a likes, which direct
millions of mobile calls to the TAXI companies contracted (as 8.2.9.4 short code means T.A.X.I
on any mobile phone worldwide), do influence the business trends when hailing for a TAXI,
already impacted initially by the emergence of large radio dispatching private or virtual
networks. Also independent taxi owners, as well as TAXI companies started in response to
advertise long vanity phone numbers including 8294 number as vanity code for TAXI, for
customer easy remembering of their commercial line when in need for a TAXI. Because of the
overwhelming possession and use of mobile phone, the battle has moved to smartphone related
marketing and mobile services CRM for taxi, through mobile universal directories of TAXI
details, available worldwide on any mobile phone downtown or at the airport, as mobile
directories such as www.8294.tel alternatively to yellow pages paper book edition, and also in
competition with the launch of multiple mobile apps offering location services, taxis fare
16. Page | 16
calculation, as well as direct call to TAXIs contracted by app editor. The ongoing trend of mobile
usage is reshaping progressively the taxi business initially born as a nearly fixed infrastructure
business regulated and ruled by City Halls. Taxi dispatch is evolving in connection to the
telecom sector with the advent of smart-phones. In some countries such as Australia, Canada,
Germany, the UK and USA, smartphone applications are emerging that connect taxi drivers
directly with passengers for the purpose of dispatching taxi jobs, launching new battles for the
marketing of such apps over the potential mass of Taxi users. Taxi Fares are set by the State and
City where they are permitted to operate. The fare includes the 'drop', a set amount that is tallied
for getting into the taxi plus the 'per mile' rate as has been set by the City. The taxi meters track
time as well as miles in a typical taxi fare.[3]
1.5.4 DRIVER AND COMPANIES
In the United States, a nut is industry slang for the amount of money a driver has to pay upfront
to lease a taxi for a specific period of time. Once that amount is collected in fare, the driver then
begins to make a profit. A driver "on the nut" is trying to earn back the initial cost. This varies
from city to city though, in Las Vegas, Nevada, all taxicabs are owned and operated by the
companies and all drivers are employees (hence no initial cost and earn a percentage of each
fare). So "on the nut" simply means to be next in a taxi stand to receive a passenger.
1.5.5 ENVIRONMENTAL CONCERNS
Taxicabs have been both criticized for creating pollution and also praised as an environmentally
responsible alternative to private car use. The results, published in the journal Atmospheric
Environment in January 2006, showed that the level of pollution that people are exposed to
differs according to the mode of transport that they use. The most risky method of transport was
the back seat of a taxicab, followed by travelling by bus, cycling, walking, with a private car
exposing people to the lowest amount of pollution.
1.5.6 VEHICLES
Taxi services are typically provided by automobiles, but in some countries various human-
powered vehicles, (such as the rickshaw or pedicab) and animal-powered vehicles (such as
the Hansom cab) or even boats (such as water taxies or gondolas) are also used or have been
used historically. In Western Europe, Bissau, and to an extent, Australia, it is not uncommon for
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expensive cars such as Mercedes-Benz to be the taxicab of choice. Often this decision is based
upon the perceived reliability of, and warranty offered with these vehicles. These taxi-service
vehicles are almost always equipped with four-cylinder turbo diesel engines and relatively low
levels of equipment, and are not considered luxury cars. This has changed though in countries
such as Denmark, where tax regulation makes it profitable to sell the vehicles after a few years of
service, which requires the cars to be well equipped and kept in good condition.
1.5.7 TAXICAB LIVERY
Taxicab livery varies greatly from country to country. In some countries, livery is determined by
Government legislation, in other countries, taxicab operators have choice on colors. In India,
most taxicabs, especially those in Delhi and Mumbai, have distinctive black and yellow liveries
with the bottom half painted black and upper half painted yellow. In Kolkata, most taxis are
painted yellow with a blue strip in the middle (earlier in Kolkata it used to be yellow and black.
1.6 FEASIBILITY STUDY
When a project started the first matter to established to assess the feasibility of a project.
Feasibility means the extent which appropriate data and information are readily available or can
be obtained with available resources such as staff, expertise, time, and equipment. It is basically
used as a measured of how practical or beneficial the development of a software system will be
to you or organization. This activity recurs throughout the life cycle.
THERE ARE MANY TYPES OF FEASIBILITIES:
Technical
Operational
Economic
Schedule
Specification
Information
Motivational
Legal and Ethical
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1.6 .1 TECHNICAL FEASIBILITIES
We used different tools and technology for the development of this project. Definitely
These tools and technology has fully command and maintenance and development for this
project in today and future in web designing. All tools done different work like HTML used for
built a basic structure of project.
1.6 .2 OPERATIONAL FEASIBILITIES
Operational feasibilities is dependent on human resources available for the project and involves
projecting whether the system will be used if it is developed and implemented. Operational
feasibilities is a measure of how well a proposed system solves the problems, and takes
advantages of the opportunities identified during scope definition.
1.6 .3 ECONOMIC FEASIBILITIES
Cost Estimation
One time cost
Recurring cost
One time cost
Laptop
Operating system
Application
Recurring cost
Operational cost
Maintenance cost
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1.6 .5 SPECIFICATION FEASIBILITIES
Our project has the ability features in future. In which we have tried to embed
GPS/GSM System
Advertisement of New Models
Sale Point For Vehicles
1.6 .6 INFORMATION FEASIBILITIES
We have covered all information regarding to the car rental system. As it is based on online
services so it will manage their all information and provide the facility of online registration
which will help the customers to save their time and cost as well.
1.6 .7 MOTIVATIONAL FEASIBILITIES
The probabilities that organized is sufficiently motivated to support the development and
implementation of the application with necessary user participation, resources, training, time etc.
1.6 .8 LEGAL AND ETHICAL FEASIBILITIES
This project legally and ethically to all customers. We provide our disclaimer and privacy policy
to customers[4]
.
Fig 1.6.8: Feasibilities Flowchart
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CHAPTER 2
BACK GROUND & RELATED WORK
2.1 MINIMUM HARDWARE AND SOFTWARE REQUIREMENT
Minimum Server Side Hardware and Software Requirement
HARDWARE
Processor: Dual Core (Minimum)
Hard Disk Capacity: 50 GB (Minimum)
Ram Capacity: 1 GB(Minimum)
SOFTWARE
Front End: Microsoft Visual Studio Framework 4.5
Back End: SQL Server 2008
Operating System: Window Server 2003
Runtime Framework: Microsoft.NET Framework
2.1 MINIMUM HARDWARE AND SOFTWARE REQUIREMENT
Minimum Client Side Hardware and Software Requirement
HARDWARE
Processor: Dual Core (Minimum)
Hard Disk Capacity: 50 GB (Minimum)
Ram Capacity: 1 GB(Minimum)
SOFTWARE
Web Browser: Internet Explorer 8, Firefox, Opera, Google Chrome
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2.2 FUNCTIONALITY
ADMIN MODULE
Login to the website
Manage User
Manage Vehicle
Manage Driver
Manage Booking
USER MODULE
Register/Login to the Account
Booking of the vehicle
2.3 SYSTEM FLOWCHART
Fig 2.3: System Flowchart
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CHAPTER 4
RESULTS & CONCLUSION
4.1 Results
4.1.1 First or welcome screen
The first and the welcome page of our epic ride 24x7 looks as shown in figure. This page shows
welcome screen of the application. This activity disappears automatically after 5 seconds. The
activity is as shown below:-
Fig 4.1.1: Welcome page
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4.1.2 Booking screen
This screen showing cab booking form. Firstly fill this form then epic ride 24x7 will send
notification for successful booking.
Fig 4.1.2: Booking screen
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4.1.3 Main Screen
This screen is main screen of the website epic ride 24x7. This screen will automatically visible
after 5 seconds.
Fig 4.1.3: Main screen
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4.3 CONCLUSION
What does the future hold for ER 24x7? Given enough entrepreneurial designers and sufficient
research and development dollars, ER 24x7 can become a powerful tool for future online cab
booking applications. However, the limited availability of funds in a capital-short environment
could restrict the growth of this technology. But, given the proper impetus and encouragement, a
lot of benefits can be provided by the ER 24x7. They are:-
The demand for taxi services increases, as the prices fall and the quality improves.
lower operating costs, incentivized by the competition;
new innovations such as shared-ride markets and special services for the disabled, new
market niches;
That the number of taxi firms increased, but large incumbent firms continued to dominate all but
one of the nine cities. The taxi prices did not fall in real terms, but increased in every city
studied. Turnover was concentrated among small operators (usually one-cab operators); little
turnover occurred among medium and large new firms and no exit by a large incumbent firm
occurred since deregulation. Productivity decreased by at least one-third in all four cities for
which sufficient data was obtainable; the authors argued that decreases of this magnitude in
productivity have serious economic consequences for taxi drivers, by shifting the industry from
employee drivers to lease drivers and causing the average taxi driver to earn a lower income.[5]
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REFERENCES
1. "The Knowledge Boys"
2. "Get the Free Taxi Button at your Business - Sign Up Today"
3. "Centralized Dispatching | UTCC"
4. “https://www.scribd.com/doc/305399316/Online-car-rental-system”