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Design And Implementation Of An Automated Inventory Control System For Nigerian Breweries Plc, Enugu

Abstract of Design And Implementation Of An Automated Inventory Control System For Nigerian Breweries

This research work is concise and generally summarizes the activities duly carried out in the design and implementation of an automated inventory control system for NIGERIAN BREWERIES PLC, ENUGU. The system is designed to efficiently handle the movement and tracking of goods. The manual method is labour intensive, costly, and error prone and cannot ensure that the inventory remains up-to-date due to oversight and internal shrinkage. With the proposed new system, inventory can be updated in real time without product movement, scanning, or human involvement. The automated system helps in; (i) the determination of inventory status, (ii) registration of new stock, (iii)registration of new customers, (iv) supply of goods to registered customers, (v) printing of transaction invoices for customers for transactions that have taken place as well as viewing the available transactions that were carried out at a particular time. The study outlines the main concepts of the analysis and design methodology of the proposed system, compares it to the existing and goes further to explain the design and implementation of the system. The tools used were; Visual Basic 10 and Microsoft access 2007. The fact finding techniques employed is interview, observation, online and library research.

Table of contents on Design And Implementation Of An Automated Inventory Control System For Nigerian Breweries

Certification Page ii
Dedication iii
Acknowledgement iv
Abstract v
Table of Contents vi
List of figures x
List of tables xi

CHAPTER ONE
INTRODUCTION
1.1 Background of the Study……………………………………………………..1
1.2 Statement of the Problem……………………………………………………..2
1.3 Aims/objectives of the project……………………………………………..3
1.4 Justification for the project…………………………………………………..3
1.5 Objectives of the Study………………………………………………………..4
1.6 Scope of the Study……………………………………………………………….4
1.7 Definition of Basic Concepts…………………………………………………5
1.8 Project report organisation……………………………………..6

CHAPTER TWO
LITERATURE REVIEW
2.1 Comprehensive Overview………………………………………………………7
2.2 Types of Inventory Control System…………………………………………7
2.2.1 Four types of Inventory Control Systems………………………………….8
2.2.1.1 Manual Inventory Management System………………………………….8
2.2.1.2 Barcode Technology…………………………………………………………….8
2.2.1.3 Radio Frequency Identification (RFID)……………………………………9
2.2.1.4 Warehouse Management System…………………………………………….9
2.3 How Inventory Control Systems really work…………………………….11
2.4 What Industries use Inventory Control Systems………………………..13
2.4.1 Application of ICS in the Manufacturing Industry……………………12
2.4.2 Importance of Inventory Control Systems……………………………….14
8
2.5 Warehouse Management Systems (WMS)……………………………….15
2.5.1 Warehouse Management Rules Engine…………………………………….15
2.5.1.1 Rules Workbench………………………………………………………………..16
2.5.1.2 Warehouse Management System Strategy………………………………16
2.5.2 Importance of Warehouse Management Systems……………………..17
2.5.3 ICS vs. WMS……………………………………………………………………….18
2.6 Automated Inventory Control System Software…………………………18

CHAPTER THREE
3.1 Research Methodology………………………………………………………….20
3.2 Data Collection…………………………………………………………………….21
3.2.1 Primary Source…………………………………………………………………….20
3.2.2 Secondary Source…………………………………………………………………20
3.2.3 Observational Method…………………………………………………………..20
3.3 Analysis of the existing system…………………………………………….21
3.4 Limitations of the Existing System…………………………………………22
3.5 System Design………………………………………………………………………23
3.5.1 Input Specification…………………………………………………………………23
3.5.2 Output Specification………………………………………………………………23
3.5.3 Processing……………………………………………………………………………..23
3.5.4 Login form…………………………………………………………..24
3.5.5 New customer form…………………………………………..……..24
3.5.6 Edit customer………………………………………………………..25
3.5.7 Register product……………………………………………………..26
3.5.8 Edit product…………………………………………………………27
3.6 Data Base Design……………………………………………………28
3.7 System Flow Chart………………………………………………….29
3.8 Top Down Diagram…………………………………………………30

CHAPTER FOUR
4.1 Choice of development tools…………………………………………………32
4.2 System Requirements…………………………………………….32
4.2.1 Software Requirements………………………………………………………..32
4.2.2 Hardware Requirements……………………………………………………….33
4.2.3 Functional Requirements………………………………………………………33
4.2.4 Non-functional Requirements………………………………………………..34
4.3 System Implementation…………………………………………………………34
4.3.1 Login form…………………………………………………………35
4.3.2 Main form…………………………………………………………..36
4.4 System Testing……………………………………………………………………..37
4.4.1 Unit Testing…………………………………………………………………………38
4.4.2 System Testing……………………………………………………………………..41
4.4.3 Testing Process……………………………………………………………………..41
4.5 integration………………………………………………………….42
CHAPTER FIVE
5.1 Summary of findings……………………………………………………………43
5.2 Limitations of the project…………………………………………………….43
5.3 Recommendations……………………………………………………………….43
5.4 BEME (Bill Of Engineering Measurement & Evaluation)……….44
5.5 Conclusion………………………………………………………………………….44
REFERENCES…………………………………………………………………………….48

Appendix A: Program Source Code………………………………………………….40
Appendix B: Output System…………………………………………………………….51
Appendix C: User Guide………………………………………………………………….51
List of Figures
Fig 1: login form………………………………………………………………24
Fig 2: new customer form……………………………………………………..24
Fig 3: edit customer form………………………………………………………25
Fig 4: register product form……………………………………………………26
Fig 5: edit product form……………………………………………………….27
Fig 6: system flow chart……………………………………………………….29
Fig 7: top down diagram………………………………………………………30
Fig 8: login form………………………………………………………………35
Fig 9: main form……………………………………………………………….36
Fig 10: new customer form……………………………………………………37
Fig 11: order slip form………………………………………………………..38
Fig 12: testing process………………………………………………………..43

List of Tables
Table 1: The Test Data, Expected Data, and Actual Result table ……………40
Table 2: BEME (Bill of Engineering Measurement & Evaluation)……………46

Chapter 1 of Design And Implementation Of An Automated Inventory Control System For Nigerian Breweries

INTRODUCTION

1.1 BACKGROUND OF THE STUDY
Nigerian Breweries Plc., incorporated in 1946, is the pioneer and largest brewing company in Nigeria. Its first bottle of beer, STAR Lager, rolled off the bottling lines of its Lagos Brewery in June 1949. Other breweries were subsequently commissioned by the company, including Aba Brewery in 1957, Kaduna Brewery in 1963, and Ibadan Brewery in 1982. In September 1993, the company acquired its fifth brewery in Enugu state, and in October 2003, its sixth brewery, sited at Ama in Enugu. Ama Brewery is the largest brewery in Nigeria and one of the most modern worldwide. Operations at Enugu brewery were discontinued in 2004 leaving the company with five operational breweries.
The company has a portfolio of high-quality brands, including Star Lager Beer (launched in 1949); Gulder Lager Beer (1970); Maltina (1976); Legend Extra Stout (1992); and Amstel Malta (1994). The company also re-launched Heineken Lager into the Nigerian market in June 1998.
Justifiably, the company has the problem of keeping adequate record of goods transfer and since it is done manually, associated problems of insecurity, high cost of operation and delay in supply arise. Data processing in Nigerian Breweries PLC is presently carried out using people, pens, and paper to control stock and inventory therefore, I decided to embark on this project to design automated inventory control system software that will help eradicate these ugly measures
An inventory control system contains a list of orders to be filled and then prompts workers to pick the necessary items, and provides them with packaging and shipping information. Inventory control may be used to automate a sales order fulfilment process and also manage in and outward material of hardware.

Automation is the replacement of human workers by technology. For optimal sales and inventory management process, robust functionality is needed for managing logistics facilities. Warehouse management functions for inventory control cover internal warehouse movements and storage and its support helps in the recording and tracking of materials on basis of both quantity and value.
This application takes care of all supply orders reducing cost for warehousing, transportation while improving customer service. It significantly improves inventory turns, optimizes flow of goods and shortens routes within warehouse and distribution centres. It also improves cash flow, visibility and decision making providing efficient execution of tasks using this fast and reliable computerised method.
The design and development of an automated inventory control system for the Nigerian Breweries PLC will no doubt bring immeasurable relief from the problems associated with the manual system.

1.2 STATEMENT OF THE PROBLEMS
The Nigerian Breweries PLC is to an extent manually operated and reveals a number of problems.
 The recording of sales and cash received are done manually on a book that appears rough. Thus, the books are exposed to physical damage, information can be lost and dust particles are accumulated.
 The long list of supply orders waiting to be attended to on daily basis.
 The control system is time consuming, less accurate and less efficient, and the environment is not user friendly.
 Inaccuracies often ensue from human error.
The manual system is quite tedious and can be reduced or eliminated with the introduction of the proposed system.

1.3 AIMS/OBJECTIVES OF THE PROJECT
The purpose of this study is to improve current operational process in the Nigerian Breweries PLC to its full capacity by developing efficient computer software that can handle inventory in a computerized fashion.

1.4 JUSTIFICATION FOR THE PROJECT
This study is primarily aimed at increasing efficiency in operations, reducing maintenance and running cost, monitoring the supply of goods and its distribution and increase profit in the Nigerian Breweries PLC by introducing an automated inventory control system.
The new system will among other things help to;
 Maintain accuracy in database handling.
 Improve flexibility.
 Increase efficiency and reliability of the system.
 Provide a user friendly interface.
 Save time, manpower and paperwork.
These, no doubt will possibly affect the quality of services rendered to customers.

1.5 OBJECTIVES OF THE PROJECT
The main objective of this study is to develop a computerized inventory control management system. Others include;
i. To provide total asset visibility.
ii. To allow reduced inventory stocking levels giving full inventory history.
iii. To reduce lead time, shelf space, and errors due to damage, fatigue of staff and overall cost of operations.
iv. To facilitate “just in time” deliveries.
v. To provide full process control for products.
vi. To provide higher level security as the system would be passworded to prevent unauthorised access.
vii. To shorten cross docking time and speeds up sort/pick up rate.
viii. To help the management plan, monitor, optimize resources and ascertain their financial position at any time.

1.6 SCOPE OF THE PROJECT
The scope of the project covers the development of a computer based database application for use by the three sections (Automation – Packaging, Utilities and Brewhouse) at the Ama brewery to replace their old paper notebook recording system.
The requirements include designing a user interface for the application and providing options for a user to log into the application by supplying the correct username and password combination; register new customers and view a list of already registered customers; to keep track of stock going out and coming into the company’s warehouse; view users registered on the database; create, delete or edit the information for a user, etc. It also covers writing the background programming to ensure that the interface works with the database through the underlying codes to perform the required actions. If also involves the testing, improvement and optimization of the application.

1.7 DEFINITION OF BASIC CONCEPTS
Automation: This is the use of technology or computers to control and process data reducing the need for human intervention.
Database: This refers to a large store of related data on a computer that a user can access and modify.
Password: This is a secret code that must be entered into a computer to enable access to its applications. It is made up of numbers, letters, special characters or a combination of any of the above categories.
Inventory Control System: A list of orders to be filled, and prompts workers to pick the necessary items and provides them with packaging and shipping information.
Computerization: This is the conversion of a manually operated system to a controlled, organized and automated system.
Research: A careful study of a subject to discover facts, establish a theory or develop a plan of action based on the facts discovered.
System: A set of computer components functioning together.
Technology: The study of techniques of mobilizing resources such as information for accomplishing objectives that benefit man and his environment.
Software: A computer program or set of instructions that direct a computer to perform processing functions.
Information System: A collection of procedures, people, instructions and equipments to produce information in a useful form.
Processing: This is dealing with something according to an established procedure.

1.8 Project Report Organization
This report is organized into five chapters. The first chapter takes care of introduction: background, aims and objectives, justification and scope of the project. Chapter two talks about the literature review of this work. In chapter three, the project methodology, data collection, analysis, limitations of the existing system, system design, system flowchart and top down design were done. The input, processing and output modules are critically analysed.
In chapter four, system implementation, testing and integration: choice of development tools, system requirements, and testing were carefully done. Finally chapter five closes up with summary, recommendations and conclusions: limitation, Bill of Engineering Measurement and Engineering (BEME), bibliography, appendices.

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