DESIGN AND IMPLEMENTATION OF COMPUTER USAGE IN MARINE

TABLE OF CONTENT

 Title page

Dedication

Acknowledgement

Table of Content

CHAPTER ONE

Introduction     –       –       –       –       –       –       –       1

History of Computer         –       –       –       –       –       –       1

CHAPTER TWO      

Marine industry safety and computer      –       –       6

CHAPTER THREE

Security and Networking of computer in

marine industry       –       –       –       –       –       –       9

CHAPTER FOUR

Use of Computer communication in marine

industry   –       –       –       –       –       –       –       –       12

CHAPTER FIVE

Recommendation     –       –       –       –       –       –       16

Conclusion      –       –       –       –       –       –       –       17

CHAPTER ONE

INTRODUCTION

        Computer is use in business, safety, security, communication, accounting, monitoring etc. The Marine Industry uses it to do business, for safety, security, communication, accounting, monitoring, that is why marine industry uses computer. Before I start to explain the usage of computer in Marine Industry I will like to define what is Marina, Marine, and introduce this great machine call Computer.   

        Marina is a small port or area of water where people keep boats that are used for pleasure.

        Marine is connected with the sea and the creatures that live there. Marine soldier is a solider who serves on a ship especially a member of the Royal Marines or the Marine Corps.

History of Computer

The history of computing began with an analog machine. In 1623 German scientist Wilhelm Schikard invented a machine that used 11 complete and 6 incomplete sprocketed wheels that could add, and with the aid of logarithm tables, multiply and divide.

In the mid-1940s, early computers were the size of houses and as expensive as battleships, but they had none of the computational power or ease of use that are common in modern PCs. The miniaturization of electronic circuitry and the invention of integrated circuits and microprocessors enabled computer makers to combine the essential elements of a computer onto tiny silicon computer chips, thereby increasing computer performance and decreasing cost. The first microprocessor, the Intel 4004, created in 1971 by Intel Corporation, was originally designed to be the computing and logical processor of calculators and watches. From its simple design modern microprocessors evolved.

In 1981 International Business Machines Corporation (IBM) introduced the IBM PC. It was designed with an open architecture that enabled other computer manufacturers to create similar machines, or clones, that could also run software designed for the IBM PC. The design of the IBM PC and its clones soon became the PC standard, and an operating system developed by Microsoft Corporation became the dominant software running PCs.

A graphical user interface (GUI)—a visually appealing way to represent computer commands and data on the screen—was first developed in 1983 when Apple introduced the Lisa, but the new user interface did not gain widespread notice until 1984 with the introduction of the Apple Macintosh. The Macintosh GUI combined icons (pictures that represent files or programs) with windows (boxes that each contain an open file or program). A pointing device known as a mouse controlled information on the screen. Inspired by earlier work of computer scientists at Xerox Corporation, the Macintosh user interface made computers easy and fun to use and eliminated the need to type in complex commands (see User Interface). Today, software available for IBM PCs and clones, as well as most other popular computer platforms, also feature a GUI.

Since the early 1970s, computing power has doubled about every 18 months due to the creation of faster microprocessors, the incorporation of multiple microprocessor designs, and the development of new storage technologies. Ongoing research is focused on creating computers that use light and biological molecules instead of—or in combination with—conventional electronic computer circuitry. These technological advances, coupled with new methods for interconnecting computers, such as the proposed Internet, an advanced Internet under development by universities, industry, and the government, promise to make PCs even more powerful and useful.

Another early mechanical computer was the Difference Engine, designed in the early 1820s by British mathematician and scientist Charles Babbage. Although never completed by Babbage, the Difference Engine was intended to be a machine with a 20-decimal capacity that could solve mathematical problems. Babbage also made plans for another machine, the Analytical Engine, considered the mechanical precursor of the modern computer. The Analytical Engine was designed to perform all arithmetic operations efficiently; however, Babbage’s lack of political skills kept him from obtaining the approval and funds to build it.