CSC 2773 LAN Technologies PDF

Summary

These notes provide an overview of LAN technologies and related topics. They cover fundamental concepts of network components, host roles, and types of networks. The discussion also includes details on different network layers and standards.

Full Transcript

CSC 2773
LAN TECHNOLOGIES
1. 0 L A N T ECHN OLOGIES
1. 0. 1 I E E E L A N STANDARDS
1. 0. 2 I E E E 8 0 2. 11 W I R E LESS STA NDAR DS
Network Components
Host Roles
Every computer on a network is called a host or end device.
Servers are computers that provide information to end
devices:
email servers
web servers
file server

Clients are computers that send requests to the servers to
retrieve information:
web page from a web server
◦ email from an email server
End Devices
An end device is where a message originates from or where it
is received. Data originates with an end device, flows through
the network, and arrives at an end device.
Intermediary Network Devices
An intermediary device interconnects end devices. Examples include switches, wireless access
points, routers, and firewalls.
Management of data as it flows through a network is also the role of an intermediary device,
including:
◦ Regenerate and retransmit data signals.
◦ Maintain information about what pathways exist in the network.
◦ Notify other devices of errors and communication failures.
Network Media
Communication across a network is carried through a medium which allows a message to travel
from source to destination.

Media Types Description
Metal wires within cables Uses electrical impulses

Glass or plastic fibers within Uses pulses of light.
cables (fiber-optic cable)

Wireless transmission Uses modulation of specific
frequencies of
electromagnetic waves.
LANs and WANS
Network infrastructures vary greatly in terms of:
Size of the area covered
Number of users connected
Number and types of services available
Area of responsibility

Two most common types of networks:
Local Area Network (LAN)
Wide Area Network (WAN).
LANs and WANS
A LAN is a network infrastructure that A WAN is a network infrastructure that spans a
spans a small geographical area. wide geographical area.

LAN WAN
Interconnect end devices in a limited area. Interconnect LANs over wide geographical areas.
Administered by a single organization or individual. Typically administered by one or more service providers.
Provide high-speed bandwidth to internal devices. Typically provide slower speed links between LANs.
 The Internet
The internet is a worldwide collection of
interconnected LANs and WANs.
LANs are connected to each other using WANs.
WANs may use copper wires, fiber optic cables,
and wireless transmissions.
The internet is not owned by any individual or
group. The following groups were developed to
help maintain structure on the internet:
◦ IETF
◦ ICANN
◦ IAB
LAN Topologies
End devices on LANs are typically
interconnected using a star or extended star
topology. Star and extended star topologies are
easy to install, very scalable and easy to
troubleshoot.

Early Ethernet and Legacy Token Ring
technologies provide two additional topologies:
Bus – All end systems chained together and
terminated on each end.
Ring – Each end system is connected to its
respective neighbors to form a ring.
Data Link Frame
 The Frame
Data is encapsulated by the data link layer with a header and a trailer to form a frame.
A data link frame has three parts:
Header
Data
Trailer
The fields of the header and trailer vary according to data link layer protocol.

The amount of control information carried with in the frame varies according to access control information and logical
topology.
Frame Fields

Field Description
Frame Start and Stop Identifies beginning and end of frame
Addressing Indicates source and destination nodes
Type Identifies encapsulated Layer 3 protocol
Control Identifies flow control services
Data Contains the frame payload
Error Detection Used for determine transmission errors
 Layer 2 Addresses
Also referred to as a physical address.
Contained in the frame header.
Used only for local delivery of a frame on the link.
Updated by each device that forwards the frame.
LAN and WAN Frames
The logical topology and physical media determine the data link protocol used:
Ethernet
802.11 Wireless
Point-to-Point (PPP)
High-Level Data Link Control (HDLC)
Frame-Relay

Each protocol performs media access control for specified logical topologies.
Standards
IEEE
IEEE, or Institute of Electrical and Electronics Engineers, is an organization that develops
standards for the electronics industry and computers.

IEEE is composed of numerous scientists, engineers, and students from all over the globe.

The main AIM of IEEE is to ensure foster technological innovation and excellence for the benefit
of humanity.
IEEE Standards
The IEEE standards in computer networks ensure communication between various devices; it
also helps to make sure that the network service, i.e., the Internet and its related technologies,
must follow a set of guidelines and practices so that all the networking devices can
communicate and work smoothly.

Since there are various types of computer system manufacturers, the IEEE's computer society
started a project in 1985 called Project 802 to enable standard communication between various
devices.
IEEE Standards
Under this project, the IEEE divided the data link layer into two sub-parts, namely:
LLC or Logical Link Control and
MAC or Media Access Control.

The standards that deal with computer networking (networking in general) are called the IEEE 802
standards.

The IEEE 802 is a collection of networking standards that deals with the data link layer and physical
layer technologies like Ethernet and wireless communications.

The IEEE standards for computer networks developed IEEE 802 standards which ensure that various
devices having different network hardware can easily connect over the network and exchange data.
The IEEE 802 standards also make sure that the network connectivity and management are easier.
Example of IEEE Standards – 802.11
The IEEE 802.11 standard in computer networks is used in various homely devices like laptops,
printers, smartphones, and various other devices that allow them to communicate with each
other using wireless communications.
List of IEEE Standards
List of IEEE Standards
List of IEEE Standards
List of IEEE Standards
Wired LAN
FOCUSING ON 802.3 STANDARDS
802.3 Standards
802.3, or IEEE 802.3, is a working group of standard specifications for Ethernet, a method of
packet-based physical communication in a local area network.

It defines a physical layer and a data link layer for media access control, or MAC address, for a
wired, fast Ethernet network connection. These physical connections are made between nodes
or devices such as routers, switches and hubs via copper or fiber cables.

In general, IEEE 802.3 standards specify the physical media and the working characteristics of
Ethernet. However, there are many variations of this standard used today.
802.3 Standards (evolution)
Wireless LAN
FOCUSING ON 802.11 STANDARDS
Benefits of Wireless
A Wireless LAN (WLAN) is a type of wireless network that is commonly used in homes, offices,
and campus environments.

WLANs make mobility possible within the home and business environments.

Wireless infrastructures adapt to rapidly changing needs and technologies.
Types of Wireless Networks
Wireless Personal-Area Network (WPAN) – Low power and short-range (20-30ft or 6-9 meters).
Based on IEEE 802.15 standard and 2.4 GHz frequency. Bluetooth and Zigbee are WPAN examples.

Wireless LAN (WLAN) – Medium sized networks up to about 300 feet. Based on IEEE 802.11
standard and 2.4 or 5.0 GHz frequency.

Wireless MAN (WMAN) – Large geographic area such as city or district. Uses specific licensed
frequencies.

Wireless WAN (WWAN) – Extensive geographic area for national or global communication. Uses
specific licensed frequencies.
Wireless Technologies
Bluetooth – IEEE WPAN standard used for device pairing at up to 300ft (100m) distance.
Bluetooth Low Energy (BLE) – Supports mesh topology to large scale network devices.
Bluetooth Basic Rate/Enhanced Rate (BR/EDR) – Supports point-to-point topologies and is optimized
for audio streaming.

WiMAX (Worldwide Interoperability for Microwave Access)
Alternative broadband wired internet connections. IEEE 802.16 WLAN standard for up 30 miles (50 km).
Wireless Technologies
Cellular Broadband – Carry both voice and data. Used by phones, automobiles, tablets, and
laptops.
Global System of Mobile (GSM) – Internationally recognized
Code Division Multiple Access (CDMA) – Primarily used on the US.

Satellite Broadband
Uses directional satellite dish aligned with satellite in geostationary orbit. Needs clear line of site. Typically used in
rural locations where cable and DSL are unavailable.
802.11 WLAN Standards
802.11 WLAN standards define how radio frequencies are used for wireless links.

IEEE Standard Radio Frequency Description

802.11 2.4 GHz Data rates up to 2 Mb/s
802.11a 5 GHz Data rates up to 54 Mb/s
Not interoperable with 802.11b or 802.11g
802.11b 2.4 GHz Data rates up to 11 Mb/s
Longer range than 802.11a and better able to penetrate building
structures
802.11g 2.4 GHz Data rates up to 54 Mb/s
Backward compatible with 802.11b
802.11n 2.4 and 5 GHz Data rates 150 – 600 Mb/s
Require multiple antennas with MIMO technology
802.11ac 5 GHz Data rates 450 Mb/s – 1.3 Gb/s
Supports up to eight antennas
802.11ax 2.4 and 5 GHz High-Efficiency Wireless (HEW)
Capable of using 1 GHz and 7 GHz frequencies
Radio Frequencies
All wireless devices operate in the range of the electromagnetic spectrum. WLAN networks
operate in the 2.4 and 5 GHz frequency bands.
◦ 2.4 GHz (UHF) – 802.11b/g/n/ax
◦ 5 GHz (SHF) – 802.11a/n/ac/ax