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Computer Networks
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1.Computer Networks
A number of computers connected to one another is called a computer network
A network is a set of technologies including H/W, S/W and media- that can be used to connect computer systems together for Communicating with each other (email, instant
messaging etc.) Exchanging information Share resources in real time
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Uses of Networks Simultaneous Access
Commonly used data and resources can be kept on a central location, called Network Server, from where users can simultaneously access.
If data is stored centrally, it is called a file server Programs also can be centrally located in the server, which can be accessed by
users on the network- Client server model Applications also can be centrally located on server ( Application Server)or in
clients in distributed mode of processing. Shared Peripheral devices- colour laser printers (either directly to network or
through Print Server), scanners, fax etc. Personal Communications- email, instant messaging, teleconferencing
Video conferencing- real time communication over adistance by people at two or more sites using video picture- cameras, mic, speakers, monitors etc.
Audio conferencing- digital audio between groups of participants Data- conferencing- to have shared workspace on their computer desktops-
shared “whiteboards”, where they can draw, write, import or manipulate images con real time. Used in conjunction with video and audio conferencing
VOIP- Voice over internet protocol- cheap audio communication on long distance calls
Easier Backup- Keep backup on shared storage devices
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The Telecommunications System
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2. The Telecommunications system
Telecommunications system: Combination of hardware and software that transmits information (text, data, graphics, and voice) from one location to another. Its components are: Hardware – computers, communications processors like modems Communications media – physical media through which
electronic signals are transmitted incl wireless media Communications Networks – links amongst computers and
communication devices Communications software – s/w that controls the entire
telecommunications system and the entire transmission process Data Communications providers – firms providing data
communication services Communications protocols – rules for transmitting information
across the system Communications applications – EDI, teleconferencing etc.
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Hardware devices that support data transmission and reception across a telecommunications system.
Modem: Device that converts signals from analog to digital and vice versa. Analog Signal – continuous waves that transmit
information by altering the amplitude and frequency of the waves.
Digital signal: A discrete pulse, either on or off, that conveys information in a binary form.
Communications processors
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Multiplexer: Electronic device that allows a single communications channel to carry data transmission simultaneously from many sources.
Front-end processor: A small secondary computer, dedicated solely to communication, that manages all routing communications with peripheral devices.
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Communication media and channels
Communication channel. Pathway for communicating data form one location to another.
Cable Media
Broadcast Media
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Cable media: Communications channels that use physical wires or cables to transmit data and information.1. Twisted pair wire – strands of copper wire twisted in
pairs –inexpensive, widely available, easy to work with, unobtrusive – slow(low bandwidth- 10Mbps), subject to interference, easily tapped (low security)
2. Coaxial Cable – insulated and shielded copper wire – higher bandwidth(100Mbps), less susceptible to interference- expensive, easily tapped 9low to medium security), difficult to work with
3. Fibre optic cable- Thousand of very thin filaments of glass fibers, surround by cladding, that transmit information via light pulses generated by lasers – high bandwidth (6 Tbps) , theoretically upto 25Tbps– difficult to work with.
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Broadcast ( wireless) media: Communication channels that use electromagnetic media (the ‘’airwaves’’) to transmit data.
1. Microwave transmission. Communication channel that uses towers to send wireless signals; used for high-volume, long-distance, point-to-point communication on line of sight (every 30 miles you need towers to receive , amplify and retransmit)
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2. Satellite transmission. Communications channel that uses orbiting satellites to send digital transmission point-to-point.
Geostationary satellites at 22,300miles above. Three satellites sufficient to give global coverage. GEO- Geostationary earth orbitMedium earth orbit (MEO) satellites- 6000 miles above, orbits inclined to equator. Low earth orbit (LEO) satellites – 400-700 miles above- require less power- cellular telephones- low battery power reqd to reach (Iridium Satellites)
Propagation delay. Brief pause between the sending and receipt of a satellite transmission (about 0.25 second).
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3. Radio transmission(R.F) Communications channel that uses radio wave frequencies to send data directly between transmitters and receivers over short distances.
4. Satellite radio (digital radio). Form of radio transmission that offers uninterrupted, near CD-quality music beamed to your radio from space.
5. Infrared. Red light not commonly visible to human eyes; can be modulated or pulsed for conveying information.
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Distributed processing. Network architecture that divides processing work between two or more computers, linked together in a network.Client/ server computing. Form of distributed processing in which some machines (servers) perform computing functions for end –user PCs (clients).Peer- to–peer processing. A type of client/ server distributed processing that allows two or more computers to pool their resources, making each computer both a client and a server
3. Network processing strategies
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Local area network (LAN). Network that connects communications devices in a limited geographical region within 2000’ (e.g., a building ), so that every user device on the network can communicate with every other device.Topology. The physical layout and connectivity of a network
Bus TopologyStar TopologyRing TopologyMesh Topology
4. Types of computer networks
•Hierarchical Topology
•Hybrid Topology
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Bus Topology
One common cable with terminators at the ends is used Advantage- uses least amount of cabling
Server
Computer 1 Computer 2 Computer 3
Laser Printer Scanner
Computer n
Common Bus
Disadvantages Extra Circuitry and s/w needed for collision prevention- CSMA/CD used- carrier sensing multiple access with collision detectionbroken connection can bring down all or part of network
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Star Topology
Hub
Server
Comp1
Comp2 Comp3
Comp4
Most common topology
All nodes connected through hub
Some hubs- intelligent hubs can monitor traffic and prevent collisions
Broken connection affects node only
Broken hub affects all
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Ring Topology
Server
comp1
comp2comp3
comp4
Nodes are connected in circular chain
Each node examines data as it travels through ring
A small packet called token is circulated in the ring
If token is not addressed to the node examining it, it passes to the next node
No danger of collisions as only one packet of data travels at a time in the ring
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Mesh Topology
Comp1 comp2
comp3comp4
Least used topology
Most expensive to implement
A cable runs from every computer to other computers
Advantage- data can never fail to be delivered as there are alternate paths
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Hierarchical Topology
Main Frame
Mini1 Mini2 Mini3
comp1 comp2 compn
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Hybrid Topology
Server
comp1
Printer
Printer
Main frame
Mini Mini
Star
Ring Hierarchical
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LAN technologyFile server. A repository of various software and data files for the network, which determines who gets access to what and in what sequenceNetwork interface card. Hardware that specifics the data transmission rate, the size of message units, the addressing information attached to each message and network topology.Gateway. A communications processor that connects dissimilar networks by translating from one set of protocols to anotherBridge. A communications processor that connects two networks of the same type.Router. A communications processor that routes message through several connected LANs or to a wide area network.
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Lan Technology- contd.
LANs employ Base Band technology or Broad Band Technology
In base band entire cable capacity used to transmit a single digitally coded signal
In broad band, several signals can be carried by the cable at the same time at different frequencies
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WLANs: Technologies (e.g., Bluetooth and wifi) that provide LAN connectivity over short distance, typically limited to less than 150 meters. Bluetooth. A wireless technology that enables temporary, short-
range connection between wireless devices and enables these devices to communicate with each other via low-power radio frequencies. Max transmission speed 720Kbps
Wi-Fi (Wireless Fidelity). A wireless technology that can transmit information at a range up to 300 feet; another name for the 802.11b standard on which most WLANs run.
Wireless local area networks (WLANs)
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A long- haul broad band (analog)networks, generally provided by a common telecommunications carrier, that covers a wide geographic area.They can use any of the five topologies and can include switched and dedicated lines, microwave and satellite communications. They are generally star type Value-added network (VAN). A private, data-only network that is managed by an outside third party and used by multiple organizations to obtain economies in the cost of network service and network management.
Wide area networks (WAN)
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Virtual private network (VPN). A WAN operated by a common carrier; provides a gateway between a corporate LAN and the Internet.
Tunnelling. The process of sending data over the Internet in encrypted form.
Wide area networks (WAN) cont…
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Enterprise Networking
Interconnected multiple LANs and WANs.