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KABARAK UNIVERSITY SCHOOL OF SCIENCE ENGINEERING AND TECHNOLOGY DEPARTMENT OF MATHEMATICS AND COMPUTING SCIENCES PROECT PROPOSAL COURSE CODE: COMP 411 ON ONLINE ORDERING SYSTEM DONE BY: NAME: KAPCHNAGA ROGERS WAFULA REG NO: CS/M/0095/01/11 SUPERVISOR: Mr. ANIL KUMAR This Project proposal is submitted to the School of Science Engineering and Technology in Partial Fulfillment of the Requirements for the Award of the Degree of Bachelor of Science in Computer Science of Kabarak University DECLARATION I ………………………………………………………………………….., hereby declare that everything proposed in this project proposal is based on my own knowledge and research carried out with exception to printed or electronic content and has not been submitted to any institution of learning for any academic awards. SIGNATURE………………………………………DATE …………………………………… APPROVAL This project proposal has been presented for examination with my approval as the supervisor. Supervisor: Mr. Anil Kumar SIGNATURE………………………………………DATE …………………………… DEDICATION This project proposal is dedicated with profound admiration and appreciation to GOD ALMIGHTY for giving me strength and breathe and my beloved mum and my younger sister for their moral support. Great appreciation also goes to my supervisor Mr. Anil Kumar and all my lecturers, classmates and Kabarak family who made it a success through their constant support supervision, encouragement and moral support. ACKNOWLEDGEMENT Most importantly, I sincerely thank the Almighty God for giving me strength and breathe throughout the preparation of this project proposal. I also wish to extend my sincere and heartfelt gratitude to my loving mum for the financial, moral and emotional support, my classmates and friends who helped in various ways for the successful completion of this project proposal. Finally, it is a great pleasure for me to also acknowledge the assistance and support of all the people who helped me start and finish this project proposal successfully especially Mr. Anil Kumar who has been a great supervisor during this period. I would like to give my special thanks to Kabarak University fraternity for giving me enough knowledge and skills that made me to innovatively and successfully research and compile this project proposal. Thank you every one! ABSTRACT A fast food restaurant also known as quick service restaurant (QSR) within the food service industry is a specific type of restaurant characterized both by its fast food cuisine and by minimal table service. Food served in fast food restaurants is offered from a limited menu, cooked in bulk in advance and kept hot, is finished and packaged for order and is usually available ready for pickup or to be delivered though seating may also be provided. The customers presently spend an average of 60 minutes per day going to the restaurant, selecting their meals and paying. Some restaurants have the provision of customers making a call to the restaurant in advance to order a meal to be ready for them for pick or to be delivered to them. Some of the customers don’t always get the selection they want because the restaurants run out of certain items or because there is no provision of ordering custom meals. This project is aimed at developing a complete online ordering system for use in the food service industry which will allow the restaurants to quickly and easily manage an online menu which customer can browse and use to place orders with just a few clicks. The customers will have to choose whether they want the food to be delivered to them or it will be packaged for pick up and the payment method will be upon delivery or pick up. There will be a system administrator who will have the right to add and manage user accounts, a manager who will be managing product and orders and last but not least a meal deliverer who will be dealing specifically with pending deliveries. The customer will be in a position to view the products, register and place an order. There will be a confirmation receipt for each and every order made by the customer which can be printed. The development of this system will be based on SDLC with PHP and HTML as the programming languages while MySQL server as the database of the system. HTML language is advantageous due to its easy to use and learn validation properties while MySQL has better advanced features and properties, has good security, is open source and has cross platform operability. The advantages of using PHP programming language in developing this system include: It is a stable open source language developed and maintained by a large group of PHP developers which help in creating a support community and abundant extension library. It’s easy and quick to learn and use Can be run on many platforms thus easy for users to find hosting service It has built-in database connection modules which makes it easy to connect to the database. On the other hand, the disadvantage of PHP programming language is security since it is open sourced, so all people can see the source code and if there are bugs in the source code, it can be used by people to explore the weakness of PHP. TABLE OF CONTENTS CHAPTER 1.0: INTRODUCTION Computers have become part of the life for accessing almost any kind of information. Life in the 21st century is full of technological advancement and in this technological age it is very difficult for any organization to survive without utilizing technology. The World Wide Web contributes greatly to the creation of an ever-increasing global information database. It could also be used as a mechanism to share information within an enterprise. In today’s age of fast food and take-out, many restaurants have chosen to focus on quick preparation and speedy delivery of orders rather than offering a rich dining experience. Until very recently, all of these delivery orders were placed over the phone, but there are many disadvantages to this system, including the inconvenience of the customer needing to have a physical copy of the menu, lack of a visual confirmation that the order was placed correctly, and the necessity for the restaurant to have an employee answering the phone and taking orders. What I propose is an online ordering system, which is a technique of ordering foods online applicable in any food delivery industry. The main advantage of my system is that it greatly simplifies the ordering process for both the customer and the restaurant. When the customer visits the ordering webpage, they are presented with an interactive and up-to-date menu, complete with all available options and dynamically adjusting prices based on the selected options. After making a selection, the item is then added to their order, which the customer can review the details of at any time before checking out. This provides instant visual confirmation of what was selected and ensures that items in the order are, in fact, what was intended. This system also greatly lightens the load on the restaurant’s end, as the entire process of taking orders is automated. Once an order is placed on the webpage, it is entered into the database and then retrieved, in pretty much real-time, by a desktop application on the restaurant’s end. Within this application, all items in the order are displayed, along with their corresponding options and delivery details, in a concise and easy to read manner. This allows restaurant employees to quickly go through the orders as they are placed and produce the necessary items with minimal delay and confusion. Problem statement The challenges encountered by the existing system serve as a major drawback to the realization of efficiency and customer satisfaction. The experience of ordering in most fast food restaurants is not pleasant for the customers. Customers will have to make long queues before placing their orders especially during peak hours and then the ordering staff will record customer orders. Having placed their order, the customer must then wait near the counter until their order is ready for collection. The other problem in the food service industry is that restaurants are not realizing the efficiencies that would result from better application of technology in their daily operations. Fast food business in a very competitive business and one way to stand out from competitors is through improving the business process where business process automation can assist business improvement. The other problem with the current system is that the customers are not able to see the ingredients of the meals before they place their order and also they only have to pay for an order online. Objectives General objectives To increase efficiency and improve services provided to the customers through better application of technology in daily operations. To be able to stand out from competitors in the food service industry Specific objectives To enable customers to order custom meals that aren’t in the menu To enable customers to have a visual confirmation that the order was placed correctly To enable customers to know food ingredients before ordering To reduce restaurant’s food wastage To ensure correct placement of orders through visual confirmation Improve efficiency of restaurant’s staff Eliminate paper work and increase level of accuracy Increase speed of service, sales volume and customer satisfaction Justification To increase efficiency by shortening the purchasing time and eliminating paper work like receipts through online transaction To be able to stand out from competitors by automating daily operations which will give food service providers the opportunity to increase sales To reduce restaurants food wastage and increasing efficiency of the restaurants staff by enabling the restaurants staff to know what food items the customers want in advance. To increase customer satisfaction by speeding up food delivery To reduce time wasting by eliminating long queues Project scope Online ordering system will be a web based application whose main language of programming will be PHP. Its main aim is to simplify and improve the efficiency of the ordering process for both customer and restaurant, minimize manual data entry and ensure data accuracy and security during order placement process. Customers will also be able to view product menus and there ingredients and be able to have a visual confirmation that the order was place correctly. Limitation of the system Requires internet connection and also the user must be computer literate. The set back of the system is that the customers targeted are adults with access to computer systems while the minors might have to go physically to the restaurant to purchase the food that they want or order food the food with the help of an adult. The other limitation is that the system will only be convenient to people with a small geographical region, basically just around the restaurant i.e. can only help a small area. CHAPTER 2.0: LITERATURE REVIEW CHAPTER 3.0: METHODOLOGY CHAPTER 4.0: OVERALL DESCRIPTION Weaknesses of the current system Inconvenience of customer needing to have a physical copy of the menu Time consuming Lack of visual confirmation that the order was placed correctly Necessity for restaurant to have an employee answering the phone and taking orders Difficulty in tracking customers past history Manual work and consumes large volumes of data Lack of data security Merits of the proposed system Security of data. Data are well protected for personal use. Ensures data accuracy during order placement process Minimized manual data entry Greater efficiency since data processing is very fast User friendly and interactive interface with provision for customer to view menus and have a visual confirmation that the order was place correctly. Minimized time requirement during the order placement process Greatly simplifies the ordering process for both customer and restaurant. Feasibility study This is an evaluation and analysis of the potential of the proposed project which is based on extensive investigation and research to support the process of decision making. [1] It assesses the operational, technical and economic merits of the proposed project. The feasibility study is intended to be a preliminary review of the facts to see if it is worthy of proceeding to the analysis phase. From the systems analyst perspective, the feasibility analysis is the primary tool for recommending whether to proceed to the next phase or to discontinue the project. Technical feasibility This assessment is focused on gaining an understanding of the present technical resources of the organization and their applicability to the expected needs of the proposed system. It is an evaluation of the hardware and software and how it meets the needs of the proposed system. The systems project is considered technically feasible if the internal technical capability is sufficient to support the project requirements. The essential questions that help in testing the technical feasibility of a system include the following: Is the project feasible within the limits of current technology? Does the technology exist at all? Is it available within given resource constraints? Is it a practical proposition? Is there enough manpower- programmers, testers & debuggers? Do the required software and hardware exist? Are the current technical resources sufficient for the new system? Can they be upgraded to provide the level of technology necessary for the new system? Do we possess the necessary technical expertise, and is the schedule reasonable? Can the technology be easily applied to current problems? Does the technology have the capacity to handle the solution? Do we currently possess the necessary technology? Operational feasibility Operational feasibility is the measure of how well the project will support the customer and the service provider during the operational phase. It is dependent on human resources available for the project and involves projecting whether the system will be used if it is developed and implemented. The essential questions that help in testing the technical feasibility of a system include the following: Is the project feasible to operate or not? Does current mode of operation provide adequate throughput and response time? Could there be a reduction in cost and or an increase in benefits? Does current mode of operation offer effective controls to protect against fraud and to guarantee accuracy and security of data and information? Does current mode of operation make maximum use of available resources, including people, time, and flow of forms? Are the current work practices and procedures adequate to support the new system? If the system is developed, will it be used? Does it agree with the government regulations Will the proposed system really benefit the organization? Will the system affect the customers in considerable way? How do the end-users feel about their role in the new system? How will the working environment of the end-user change? Economic feasibility This assessment aims to determine the positive economic benefits to the organization that the proposed system will provide. It typically involves a cost/ benefits analysis and it’s the most frequently used method for evaluating the effectiveness of a new proposed system. Possible questions raised in economic analysis are: Is the system cost effective? Do benefits outweigh costs? The cost of doing full system study The cost of business employee time Estimated cost of hardware Estimated cost of software/software development Is the project possible, given the resource constraints? What are the savings that will result from the system? Cost of employees' time for study Cost of packaged software/software development Selection among alternative financing arrangements (rent/lease/purchase) Schedule feasibility It is the measure of how reasonable the project time table is or the deadline is reasonable or not. During the lack of time or the time become mandatory, we must finish the project within a given time period. It mainly addresses: Can the project really be completed in the given period of time CHAPTER 5.0: ANALYSIS AND DESIGN Development of computerized systems requires analysis of the process to be digitized in order to enable a correct system, a system that functions as required and to assist the potential users of the system understand the general functionality of the system. The analysis specifies the system's objectives and constraints to which designers have to comply. The purpose of doing analysis is to transform the system’s major inputs into structured specification. Context diagram This is a brief structure which depicts the environment in which a software system exists and helps in communicating about what lies outside the system boundary. Data flow diagram It is a two-dimensional diagram that explains how data is processed and transferred in a system. The graphical depiction identifies each source of data and how it interacts with other data sources to reach a common output. Administrator module Functionalities provided: Create usernames and passwords View/ edit / delete user accounts Customer module Functionalities provided: View product’s list Register Place orders Manager module Functionalities provided: Create product categories and functionalities Edit / delete product categories and descriptions View and manage orders and sales report Meal deliver module Functionalities provided: View pending orders and delivery details Confirm order deliveries User requirements The system will be designed to be user friendly. The user friendly and interactive interfaces design helps to achieve this by enabling customers to easily browse through the menus place orders with just a few clicks and also allows restaurant employees to quickly go through the orders as they are placed and produce the necessary items with minimal delay and confusion. The system will be simple to use. Functional requirements Functional requirements define the capabilities and functions that a system must be able to perform successfully. The functional requirements of this online ordering system include: The system shall enable the customer to view the products menu, create an account, login to the system and place an order. The customer shall specify whether the order is to be picked up or delivered. The system shall display the food items ordered, the individual food item prices and the payment amount calculated. The system shall prompt customer to confirm the meal order. The system shall provide visual confirmation of the order placement The system shall enable the manager to view, create, edit and delete food category and descriptions The system shall allow confirmation of pending orders. The system shall allow generation of sales report for the orders made. The system shall allow the manager to update additional information (description, photo, ingredients etc.) for a given food item. The system shall allow the manager to update price for a given food item. Non-functional requirements A non-functional requirement is a requirement that specifies criteria that can be used to judge the operation of a system, rather than specific behaviors. Some of the non-functional requirements include: The should be sufficient network bandwidth Backup- provision for data backup Maintainability- easy to maintain Performance/ response time- fast response Usability by target user community- easy to use Expandability- needs to be future proof or upgradable Safety- should be safe to use System requirements These consist of the hardware and software components of a computer system that are required to install in order to use the software efficiently. Software requirements Operating system: Windows XP / windows 7 Technology : PHP Database : MySQL Tool : Dreamweaver Antivirus software Backup & Data Recovery software Hardware requirements Processor: Intel dual core or above Processor Speed:1.0GHZ or above RAM: 1 GB RAM or above Hard Disk: 20 GB hard disk or above Printer for printing reports Uninterruptible power supply to ensure a constant access of data. USB flash disk( At least 2GB) CHAPTER 6.0: PLANNING Time scheduling Budget ITEM DESCRIPTION AMOUNT (KSH) XAMPP SOFTWARE FREE DREAMWEAVER FREE LAPTOP/ DESKTOP 60000 DATA COLLECTION 1000 FLASH DISK 500 STATIONERY AND PRINTING 400 HOSTING CHARGES 100,000 per year MISCELLANEOUS COST 4000 TOTAL: 165,900 Table: Budget Process model For my project I plan to use waterfall as a process model. The waterfall model is a sequential design process, often used in software development processes, in which progress is seen as flowing steadily downwards (like a waterfall) through the phases of Conception, Initiation, Analysis, Design, Construction, Testing and Maintenance. CHAPTER 7.0: IMPLEMENTATION AND TESTING CHAPTER 8.0: CONCLUSION REFERENCES http://en.wikipedia.org/wiki/Feasibility_study