networking 2-1.pdf

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Networks: Packets,
Topology and Links

https://njctl.org/video/?v=SaA6jaYoTo8 Return to Table
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 Packets of Data
When messages, or data, are sent from one computer to another via
the Internet, they are first broken down into fixed­sized packets of
data and metadata (e.g., P1, P2 & P3).

Message Packets
P1P2P3 P1 P2 P3

P1
P2
P3

1. Break the message/ data into packets
 Packets of Data

Next, each packet is sent to its destination (e.g., another computer)
independently via the Internet. The independence could cause them
to take different paths.

2. Packets travel to destination

P1
P2
P3

1. Break the message/
data into packets
 Packets of Data
The packets are then re­assembled at the destination to form the
original message, or data. These packets may arrive at the
destination in the order they were sent, out of order, or not at all.

Computer communication networks that send data in the form of
small packets are called packet switched networks (PSNs).
2. Packets travel to destination

P1
P2
P3

3. Re­assemble
1. Break the message/ packets
data into packets
 Why Send Packets of Data?
In the 1960s, the driving motivation was a desire for a network that
could withstand a nuclear attack.

To do this, the network had to be decentralized and have multiple
paths between two computers.

Dividing data into small packets that routed independently prevented
the entire data set from being intercepted before reaching its
destination.

Each router along the path would forward the packets to another
router until it reached the final destination.
 Network Scope & Scale

Depending on the size of the network, different names are given to
define properties or features of the network.

The two most common types of networks are:

1) A Local Area Network (LAN) connects
computers within a school or home. All the
computers on this network are within a very
small geographic location.

2) A Wide Area Network (WAN) connects computers across a broad
geographic region, such as a telephone network.
 Network Topology
How networks are organized can have a significant effect on output
and reliability. Depending on the layout or topology of the network,
one failure can cause an entire network to fail.
 Network Topology
Token Ring is probably the least familiar type of network
connection because it has been almost completely replaced by
Ethernet Protocol, due to lack of efficiency and high cost.

It is a wired LAN that connects workstations in the form of a "ring"
as shown above. In this protocol, a signal called a "Token" is sent
to a computer, which authorizes it to send data. Only computers
with a Token can send data. The number of regulated tokens
prevents the collision of computers while they are trying to send
data in the network.
 Network Topology

Token Ring Protocol is not efficient because each station has to
wait to receive or send data, which slows down communication.
Ethernet Protocol is a much more efficient wired LAN today. It has
been refined to be able to send data at a rate of a gigabit per
second (a seemingly instant speed).

The image above shows how computers are linked through one
common cable, called an Ethernet Cable, which allows any
computer connected to communicate with another. This is also
known as a bus topology.
 Network Topology
Ethernet Cables are a specific type of cable
used to connect workstations. They prevent
data from colliding, so that it can be sent and
received at any time, by any workstation.

It is backward compatible, meaning it can connect old and new
technologies, as well as work hand in hand with Internet Protocol
(IP).
 Network Topology
WiFi Protocol is now considered the most common type of LAN,
also referred to as WLAN. It uses radio waves to connect computer
workstations and devices (e.g., smart phones, tablets, etc.),
instead of cables/wires. This is known as a star topology.

Interesting Fact: WiFi stands for Wireless Fidelity, meaning data
stays true through a wireless transfer, where it must be distorted
into radio waves. Then it is essentially "recombined" into its original
form.
 Network Topology

WiFi Protocol has also become the most commonly used WAN.

It's so common, that a popular misconception is that WAN stands for
Wireless Area Network. But that is FALSE!

Just as the "L" in LAN means "local, the "W" in WAN has a
geographic meaning of "wide", NOT "wireless".

These acronyms represent the physical distance between
computers/devices on a network, not the method by which they are
connected.

In both types of networks, the connection itself could be Ethernet,
WiFi, or even a combination of both.
 Network Topology
Today, we see a combination of Ethernet and WiFi connected LANs
depending on the needs of the individual business, educational
institution, or person setting it up.

Some WANs connect smaller LANs, but also can have Ethernet and
WiFi components at various points of the connections. We will learn
more about this in the next topic.
 Bus vs. Star Topology
Comparing the Bus vs. Star network setup, we can see the pros/cons
of each setup.

single cable connects all utilizes a central hub
peripheral devices if one computer in the
if one computer in the network network is damaged, the
stops working the entire network network continues to function
stops working more difficult to create
simple to create uses more cable length
uses less cable length more expensive
more economical works well with large
works well with a few computers numbers of computers