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IT2006

Elements of Digital Communications
History of Long-Distance Communication (LTE, 2016)
The term “long-distance communication” arose in the technology of transmission of electrical signals over
wire communications lines. People tend to create methods and improvements in order to relay information.
Smoke Signals – This is one of the oldest forms of long-distance communication for transmitting
information. American Indians used this as a distress signal. This was also used in the Great Wall of
China to relay messages of incoming threats.
Pigeon Courier – This form is often used by ancient Persians, Romans, and Greeks to send messages
using a bird as a courier.
Semaphore Flags – In 1792, Claude Chappe developed a messaging system that uses flags as methods
of communication.
Pony Express – In 1860, this mail service delivers messages, newspapers, and mails using relays of
horse-mounted riders.
Electrical Telegraph – It revolutionized long-distance communication by sending electric signals
(Morse code) in between two (2) stations.
Wireless Telegraphy (Radio) – It is a transmission of electric current projected into space in the form
of radio waves.
Telephone – It is an instrument designed for the simultaneous transmission of human voice.

Notable Advancements in Digital Communication
These are the following generations that digital communications has been revolutionized by newer
technologies. (LTE, 2016)
1st Generation (1G) – This generation uses analog wireless technology in communications.
2nd Generation (2G) – In this generation, Cellphones are upgraded from analog to digital. In this
generation, the concept of Code Division Multiple Access (CDMA) and Global System for Mobiles
(GSM) were implemented. It is the generation where Short Message Service (SMS), General Packet
Radio Service (GPRS), and Packet Switching Network (PSN) is introduced.
3rd Generation (3G) – This generaation uses a new technology called Universal Mobile
Telecommunication Systems (UMTS) in which it can render multimedia services along a line with
streaming. Evolved High-Speed Packet Access (HSPA+) is established in this generation.
4th Generation (4G) – The key technologies that have made in this generation are Multiple Input
Multiple Output (MIMO) and Orthogonal Frequency Division Multiplexing (OFDM). The two (2)
important 4G standards are WiMAX (Worldwide Interoperability for Microwave Access) and LTE (Long-
Term Evolution).
5th Generation (5G) – This generation rolls out faster data transfer speeds up to 10 times faster than
4G. It is presently happening like the Internet of Things (IoT), autonomous smart systems, and
beamforming.
Data Representation
Data is a piece of information that can be analog or digital. It can be in the form of a number, character, text,
audio, or video. It can be created, deleted, stored, or transferred. It has two (2) forms:
Analog data refers to continuous information.
o Example: human voice
Digital data takes on discrete values.
o These bits can be a file, information, or instruction.
o These consist of ones and zeros (1’s and 0’s).

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Digital communication means communication through data bits (as in electric currents and voltages switching
on or off). It is decoding information into a binary code and transmitting it in the form of a signal.
For example, words are translated into binary by giving each letter a number in a defined format (such
as ASCII code) transmitted in analog or digital signals.
This series of data bits can be stored in a file.
Information Theory
According to Claude Shannon, information theory is a representation of the conditions and parameters
affecting the transmission and processing of information. It overlaps heavily with communication theory, but
it is more oriented toward the fundamental limitations on the processing and communication of information
and less oriented toward the detailed operation of devices.

Figure 1. Block Diagram of Shannon’s Information Theory
Source: https://www.britannica.com/science/information-theory/Classical-information-theory

Data communication refers to the exchange of data between a source and a receiver in a network. It enables
the movement of electronic or digital data between two (2) or more nodes, regardless of geographical
location, technological medium, or data contents.
A source that generates the information
Examples: computers, smartphones, tablets (terminal devices)
A source encoder that converts the information into an electrical form called message signal
Example: modem
A transmitter that is used to convert the message signal into a form acceptable to the channel
Examples: amplifiers and antennas
A channel which is the path or link that connects the transmitter and the receiver
Example: may be in physical medium space such as wires or radio frequency (RF) signals
A receiver performs an inverse function of that of the transmitter to recover the message signal
Examples: filters and antennas
A source decoder converts the electrical signal back to a form acceptable to the receiver
Example: modem
A sink is the user of the information generated by the source
Example: computers, smartphones, tablets (terminal devices)

Figure 2. Block Diagram of Data Communication Network Model

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Data Communications Network Topology
These are the physical or logical layouts of devices that belong in a network.
Point-to-Point (P2P) topology – It is a link Tree topology – It is formed by connecting
that permanently connects two (2) nodes multiple buses to form a system of
or network devices. branching links with no closed loop.

Point-to-Multipoint topology – One (1)
node is connected to multiple nodes, each
in a P2P manner.

Star topology – It is a topology in which
each node is connected in a P2P manner to
a central node called a hub.

Multidrop topology – All nodes are
interconnected by a single link with one (1)
node that is the master node and the other
nodes are secondary or slave nodes.

Mesh topology – The network nodes are
interconnected arbitrarily. Generally,
users are connected to only a subset of the
Bus topology – It is like the multidrop nodes, and another set of internal nodes
topology with the exception that there is provides a switching facility that moves
no master–slave relationship; all nodes are
data from one node to another until it
peers. The line terminator is used to
reaches its destination.
prevent a signal that comes to the end of a
transmission line from bouncing back and
corrupting other signals on the line.

Ring topology – The nodes are connected
serially in a P2P manner with the last node
connected to the first node to form a loop.

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Data Communications Geographical Coverage
Personal area networks (PANs) are Metropolitan area networks (MANs)
networks that interconnect devices within interconnect LANs in a campus or
the reach of an individual, usually within a metropolitan area. An example includes
range of 10 meters. These devices are the fiber distributed data interface (FDDI).
usually cellphones, tablets, and laptops.

Source: https://images.app.goo.gl/GzaXYb9AeRrhi4gB6

Source: https://images.app.goo.gl/zoYfWKT7s4X7YneM7
Wide area networks (WANs) cover much
Local area networks (LANs) cover small larger areas such as a country (e.g., public
geographical areas, typically a building, a switched telephone network [PSTN]) or
floor, or a campus. Examples include the the globe (e.g., the Internet).
Ethernet and token ring networks.

Source: https://images.app.goo.gl/SVxYrqe9AniMFATs5

Source: https://images.app.goo.gl/Pse6FaSTAxJKg9Bs6

References:
Ibe, O. (2018). Fundamentals of data communication networks (1st ed.). Wiley & Sons, Inc.
Britannica. (n.d.). Classical information theory. In Britannica Encyclopedia. Retrieved April 13, 2020 from
https://www.britannica.com/science/information-theory/Classical-information-theory
Kurose, F., & Ross, K. (2017). Computer networking: A top-down approach (7th ed.). Pearson.
LTE [LTE]. (2016, July 11). 1.1 - Evolution of communication - Stone age to modern age [Video]. YouTube.
https://www.youtube.com/watch?v=oxTUC5I22LU
LTE [LTE]. (2016, July 12). 1.2 - Evolution of communication - From 1G to 4G & 5G [Video]. YouTube.
https://www.youtube.com/watch?v=2nsEAw_SirQ
Sklar, B. (2017). Digital communication: Fundamentals and applications (2nd ed.). Prentice Hall.
Speidel, J. (2019). Introduction to digital communications. Springer Nature.

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