Post on 12-Jan-2016
J AY A N T H O N Y R . N U Ñ E Z
NETWORKING FUNDAMENTALS
ICT
OBJECTIVES
Upon completion of the FINAL TERM, the students should be able to:
define a network, different kinds of network and devices, and the components of a network and their functions.
create and assemble straight-through and cross-over cables.
define Internet and its differences to the other kinds of network.
build a Peer-to-Peer Cable Network.
ICT
OBJECTIVES (cont.)
Upon completion of the FINAL TERM, the students should be able to:
demonstrate sharing of information or data through the use of network.
list procedures to install and troubleshoot network interface cards (NICs) and modems.
explain the functions of network and Information and Communications Technology in a safe, secure and efficient marine navigation.
ICT
CONTENT
Introduction to Networks
Types of Network
Network Architecture and Devices
Network Cabling and Topology
Internet and the World Wide Web
Network Installation and Troubleshooting
ICT
What is a Network?
A combination of computer hardware, cabling, network devices, and computer software used
together to allow computers to communicate with each other.
A network consists of 2 or more computers connected together, and they can
communicate and share resources. (e.g. hardware, software, information)
The Goal of a Network
To allow multiple computers to communicate.
Communication might be:
• a download of an MP3 audio file for your MP3 player
• checking the latest sports scores
• using an instant-messaging service, such as Viber
• sending text messages to a friend
• writing an e-mail and sending it to a business associate.
• chatting on facebook or skype
Benefits of a Network
Information sharing: Authorized users can use other computers on the network to access and share information or data. This could include special group projects, databases, etc.
Hardware sharing: One device connected to a network, such as a printer or scanner, can be shared by many users.
Benefits of a Network (cont.)
Software sharing: Instead of purchasing and installing a software program on each computer, it can be installed on the server. All of the users can then access the program from a single location.
Collaborative environment: Users can work together on group projects by combining the power and capabilities of diverse equipment.
centralized administration and support
A Simple Network
A printer shared by 4 personal computers.
Risks of Network Computing
The security of a computer network is challengedeveryday by:
• Equipment malfunctions• System failures
• Note: equipment malfunctions and system failures may be caused by natural disasters such as floods, storms, or fires, and electrical disturbances
• Computer hackers• Virus attacks
Network Architecture
Refers to the logical and structural layout or the complete framework of an organization's computer network
Consisting of the hardware, software, connectivity, communication protocols and mode of transmission, such as wired or wireless
Provides the detail overview of a network
Few terms related to Network
Workstation or NodesRefers to a computer that are
attached to a network.
Server- The master computer- Facilitates the sharing of
data, software and hardware concepts.
Components of a Network
PeripheralsShared peripheral devices do not communicate
directly on the network. Instead, peripherals rely on their connected host to perform all network operations.
Examples :
cameras, scanners, and locally attached printers
Components of a Network
HostsHosts send and receive user traffic. A host is a
generic name for most end-user devices. A host has an IP network address.
Examples:
personal computers and network attached printers
Components of a Network
Network DevicesNetworking devices connect other devices, mainly
hosts. These devices move and control network traffic.
Examples:
hubs, switches, and routers.
Components of a Network
Network MediaNetwork media provides connections between
hosts and network devices.
Network media can be wired, such as copper and fiber optic or use wireless technologies.
Network Hardware and Software
Switch
small hardware device that joins multiple computers together within one local area network (LAN).
Network Hardware and Software
RJ-45 Connector
Register Jack 45 is an 8 wire connector which is commonly used to connect computers on LAN
Network Hardware and Software
Hubconnects computers
together in a star topology network.
Network Hardware and Software
Repeateran electronic device that
receives a signal and retransmits it at a higher level and/or higher power, or onto the other side of an obstruction, so that the signal can cover longer distances without degradation.
Network Hardware and Software
Modem(MOdulator-DEModulator)
an electronic device that makes possible the transmission of data to or from a computer via telephone or other communication lines.
Network Hardware and Software
NIC (Network Interface Card)
is a computer hardware component designed to allow computers to communicate over a computer network.
Network Hardware and Software
Media converters
simple networking devices that make it possible to connect two dissimilar media types such as twisted pair with fiber optic cabling.
Network Hardware and Software
Wireless Access Point
a device that allows wireless communication devices to connect to a wireless network using Wi-Fi, Bluetooth or related standards.
Network Hardware and Software
Firewall
a part of a computer system or network that is designed to block unauthorized access while permitting outward communication.
Kinds of Networks
Depending on one’s perspective, we can classify networks in different ways.
• Based on transmission media: Wired (UTP, coaxial cables, fiber-optic cables) and Wireless
• Based on network size: LAN and WAN• Based on management method: Peer-to-peer and
Client/Server• Based on topology (connectivity): Bus, Star, Ring
Kinds of Networks (Trans Media)
Two main categories: Guided ― wires, cables Unguided ― wireless transmission, e.g. radio,
microwave, infrared, soundWe will concentrate on guided media here:
Twisted-Pair cables: Unshielded Twisted-Pair (UTP) cables Shielded Twisted-Pair (STP) cables
Coaxial cables Fiber-optic cables
If the pair of wires are not twisted, electromagnetic noises from, e.g., motors, will affect the closer wire more than the further one, thereby causing errors
Twisted Pair Cables
Typically wrapped inside a plastic cover (for mechanical protection)
A sample UTP cable with 5 unshielded twisted pairs of wires.
MetalInsulator
Unshielded Twisted Pair(UTP)
Categories of UTP Cables
EIA classifies UTP cables according to the quality:Category 1 ― the lowest quality, only good for voice, mainly
found in very old buildings, not recommended nowCategory 2 ― good for voice and low data rates (up to 4Mbps
for low-speed token ring networks)Category 3 ― at least 3 twists per foot, for up to 10 Mbps
(common in phone networks in residential buildings)Category 4 ― up to 16 Mbps (mainly for token rings)Category 5 (or 5e) ― up to 100 Mbps (common for networks
targeted for high-speed data communications)Category 6 ― more twists than Cat 5, up to 1 Gbps
Chapter 2: NETWORK CABLING 31
UTP CABLE GRADES
Category Frequency Primary Application
1 Up to 0 MHz Voice networks
2 Up to 1 MHz Voice and low-speed data networks less than 4 Mbps
3 Up to 16 MHz Voice and data networks from 4 to 100 Mbps
4 Up to 20 MHz 16-Mbps Token Ring
5 Up to 100 MHz 100-Mbps Fast Ethernet
5e Up to 100 MHz 1000-Mbps Gigabit Ethernet
6 Up to 250 MHz 1000-Mbps Gigabit Ethernet
STRAIGHT THROUGH AND CROSSOVER WIRING
Wiring within a twisted pair cable is configured as either Straight through, where each wire (or pin) is attached to the
same contact point at each end.
Crossover, where transmit contacts on each end of the cable are connected to the receive contact at the other end
In general, coaxial cables, or coax, carry signals of higher freq (100KHz–500MHz) than UTP cables.
Outer metallic wrapping serves both as a shield against noise and as the second conductor that completes the circuit
the primary type of cabling used by the cable television industry.
Coaxial Cables
Advantages and Disadvantages Noise resistance ― external light is blocked by outer jacket Less signal attenuation ― a signal can run for miles without
regeneration (currently, the lowest measured loss is about ~4% or 0.16dB per km)
Higher bandwidth ― currently, limits on data rates come from the signal generation/reception technology, not the fiber itself
Cost ― Optical fibers are expensive Installation/maintenance ― any crack in the core will degrade
the signal, and all connections must be perfectly aligned
Fiber Optic Cables
Kinds of Networks - LAN (SIZE)
Local Area Network (LAN) – a network that spans a small area such as a building or an office.
Software applications and other resources are stored on a file server.
Print servers enable multiple users to share the same printer.
Examples: • Network inside the Computer Lab• Network in your home
Kinds of Networks (Management)
Peer to peerComputers connect with each other in a workgroup to share files, printers, and Internet access. This is used to connect a small number of computers.
Client/Serversends information from a client computer to a server, which then relays the information back to the client computer, or to other computers on the network
Kinds of Networks - WAN (SIZE)
Wide Area Network (WAN) – A network that uses long-range telecommunication
links to connect 2 or more LANs/computers housed in different places far apart.
a network that spans a wide geographical area Towns, states, countries
Examples:• Network of Ce-C Panglao and Tagbilaran Campus• Internet• Broadband Cable Network
TYPES OF NETWORK TOPOLOGIES
There are three main local area network (LAN) topologies:
Bus Star Ring
Other network topologies include: Mesh Wireless
BUS TOPOLOGY
The bus topology supports thick and thin coaxial segments. Segments are connected by repeaters. The bus topology uses the baseband signaling method. Signals are broadcast in both directions simultaneously. Both ends of each segment require termination to avoid
reflection. End systems connect to the segment in a linear manner.
THICK AND THIN COAXIAL BUS
STAR TOPOLOGY
The star topology can use coaxial, twisted pair, or fiber optic cable.
A central device (hub) connects hubs and nodes to the network. Each node connects to its own dedicated port on the hub. Hubs broadcast transmitted signals to all connected
devices.
A SIMPLE STAR TOPOLOGY
RING TOPOLOGY
The ring topology can use twisted pair or fiber optic cabling.
A central device (hub) connects hubs and nodes to the network. Each node connects to its own dedicated port on the hub. You can connect multiple hubs to form a larger ring.
44
A RING NETWORK
MESH TOPOLOGY
Typically uses fiber optic cabling for redundant wide area network (WAN) links
Requires an enormous amount of cable
WIRELESS TOPOLOGY
Cell-based technology that uses unbounded media Two wireless topologies:
Ad hoc WLAN (Wireless LAN) WiFi (Wireless Fidelity)
Infrastructure
AD HOC WLAN
INFRASTRUCTURE WLAN
We have seen how networks are established, but how does
data travels in a network?
STRAIGHT-THROUGH AND CROSS-OVER PATCH CABLE
Assessment: Patch Cable Construction
Objectives
Construct a patch cable following the 568A and 568B standards
Explain the difference between the 568A and 568B standards
Test a patch cables
Objectives
Construct a patch cable following the 568A and 568B standards
Explain the difference between the 568A and 568B standards
Test a patch cables
Patch Cable Types
Straight – through cable uses: router to a hub computer to a switch LAN port to a switch, hub, or computer
Crossover Cable uses: computer to a router computer to a computer router to a router switch to a switch hub to a hub
Patch Cable Pin Assignments
568A
Pin # Color
1 Orange/white
2 Orange
3 Green/white
4 Blue
5 Blue/white
6 Green
7 Brown/white
8 Brown
568B
Pin # Color
1 Green/white
2 Green
3 Orange/white
4 Blue
5 Blue/white
6 Orange
7 Brown/white
8 Brown
STRAIGHT-THROUGH CROSSOVER
568B
568B
568A
568B
Cable Connection
STRAIGHT-THROUGH DIAGRAM
568A 568A
CROSSOVER DIAGRAM
568A568B
CABLE USAGE ON DIFFERENT DEVICES
Activity
Create a straight –through and crossover cable.