Introduction:
Communication is the process of transmitting information from a source to a receiver. The rapid transmissions of information over long distances and easy access to information have become vital features of the modern world. In transmitting data from source to receiver, energy is transformed from one form into another. As technology advances, there has been tremendous development in communication of large amounts of digital data. Engineers now aim to transmit large amounts of data as efficiently and cost effectively. This takes advantage of current technologies of Coaxial cables, Fibre Optics and Microwave transmitters and uses them appropriately in order to communicate large amounts of digital data.
Method:
The investigation to be carried out in order to determine the practicality and capability of the various methods of data communication involved looking at the material used in each component in each of the methods of data communication. Along with each methods ability to improve the communication between two cell phone towers. Another vital part of the investigation included looking at coaxial cables, Fibre Optics and Microwave transmitters’ components including durability, construction. Installation, reliability, longevity and other factors that may affect its performance in effectively communicating large amounts of digital data. This involved the rate of data transfer and frequency for Coaxial cables, Fibre Optics and Microwave
Another aspect that was considered was the level of security, as increased technological awareness has raised the amount of hackers into these systems, which now need to have ways to maintain their levels of security.
All these aspects are important as they dramatically affect the practicality and effectiveness of the method and resulted in determining the preferable form or forms of communicating large amounts of digital data.
The data used to obtain results and further discuss Coaxial cables, Fibre Optics and...