ABSTRACT
In our present society, communication is more or less the “cannot – do – without” that people always say and the strength of every successful business generally.
The impact of this can be felt in the life of individuals, homes and government establishment, without adequate communication network every activity is useless (paralyzed).countries all over the world has communication industry whose duty it is to acquire communication lines and distribute it equally among the populace of the nation. Most companies need great strength or determination to make it work. In Nigeria the button for communication distribution network is given to Nigeria Telecommunication limited (MTN)
This project work research into the procedure in A real-time operating system (RTOS) that guarantees a certain capability within a specified time constraint. For example, an operating system might be designed to ensure that a certain object was available for a robot on an assembly line. In what is usually called a "hard" real-time operating system, if the calculation could not be performed for making the object available at the designated time, the operating system would terminate with a failure. In a "soft" real-time operating system, the assembly line would continue to function but the production output might be lower as objects failed to appear at their designated time, causing the robot to be temporarily unproductive. Some real-time operating systems are created for a special application and others are more general purpose. Some existing general purpose operating systems claim to be a real-time operating systems.
TABLE OF CONTENTS
TITLE PAGE
CERTIFICATION
DEDICATION
ACKNOWLEDGEMENT
ABSTRACT
TABLE OF CONTENTS
CHAPTER ONE
INTRODUCTION
1.1 STATEMENT OF PROBLEM
1.2 AIMS AND OBJECTIVE
1.3 PURPOSE OF STUDY
1.4 IMPORTANCE OF STUDY
1.5 SCOPE OF THE STUDY
1.6 LIMITATION OF THE STUDY
1.7 DEFINITION OF TERMS
CHAPTER TWO
2.0 LITERATURE REVIEW
CHAPTER THREE
3.0 ANALYSIS OF THE EXISTING SYSTEM
3.1 METHOD OF DATA COLLECTION
3.2 REFERENCE TO WRITTEN DOCUMENT
3.3 INPUT, PROCESS, OUTPUT ANALYSIS
3.4 PROBLEMS OF THE EXISTING SYSTEM
3.5 JUSTIFICATION OF THE NEW SYSTEM
3.6 INFORMATION FLOW DIAGRAM.
CHAPTER FOUR
4.0 THE DESIGN OF THE NEW SYSTEM
4.1 OUTPUT SPECIFICATION AND DESIGN
4.2 INPUT SPECIFICATION AND DESIGN
4.3 FILE DESIGN AND STRUCTURE
4.4 PROCEDURE CHART
4.5 SYSTEM FLOW CHART
4.6 SYSTEM REQUIREMENT
4.7 MANPOWER
5.0 IMPLEMENTATION
5.1 PROGRAM DESIGN
5.2 PROGRAM FLOWCHART
6.0 DOCUMENTATION
6.1 LOADING THE LANGUAGE
6.2 LOADING THE NEW PROGRAM
6.3 RUNNING THE PROGRAM
6.4 OPERATIONAL GUIDE LINE
6.5 OPTION SELECTION
CHAPTER FIVE
7.0 RECOMMENDATION
7.1 CONCLUSION
REFERENCE