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Physical Structures Before discussing networks, we need to define some network attributes.

Physical Structures Before discussing networks, we need to define some network attributes. Type of Connection 1- Point-to-Point 2- point-to-Multi point. Figure 1.3a Types of connections: point-to-point. Figure 1.3a Types of connections: point-to-Multi point.

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Physical Structures Before discussing networks, we need to define some network attributes.

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  1. Physical Structures Before discussing networks, we need to define some network attributes. Type of Connection 1- Point-to-Point 2- point-to-Multi point

  2. Figure 1.3a Types of connections: point-to-point

  3. Figure 1.3a Types of connections: point-to-Multi point

  4. Physical TopologyThe term physical topology refers to the way in which a network is laid out physically tow or more devices connect to a link; two or more links form a topology. The topology of a network is the geometric representation of the relationship of all the links and linking devices (usually called nodes) to one another. There are four basic topologiesPossible: mesh, star, bus, and ring (see Figure 1.4).Figure 1.4 Categories of topology

  5. Mesh In a mesh topology, every device has a dedicated point-to-point link to every other device. No of node = n(n -1) /2No of cable used=n-1

  6. A mesh offers several advantages over other network topologies. First, the use of dedicated links guarantees that each connection can carry its own data load, thus eliminating the traffic problems that can occur when links must be shared by multiple devices. • Second, a mesh topology is robust. If one link becomes unusable, it does not incapacitate the entire system. Third, there is the advantage of privacy or security. When every message travels along a dedicated line, only the intended recipient sees it. Physical boundaries prevent other users from gaining access to messages. Finally, point-to-point links make fault identification and fault isolation easy. Traffic can be routed to avoid links with suspected problems. This facility enables the network manager to discover the precise location of the fault and aids in finding its cause and solution. • The main disadvantages of a mesh are related to the amount of cabling and the number of I/O ports required. First, because every device must be connected to every other device, installation and reconnection are difficult. Second, the sheer bulk of the wiring can begreater than the available space (in walls, ceilings, or floors) can accommodate.

  7. Star Topology In a star topology, each device has a dedicated point-to-point link only to a central controller, usually called a hub. The devices are not directly linked to one another. Unlike a mesh topology, a star topology does not allow direct traffic between devices. The controller acts as an exchange: If one device wants to send data to another, it sends the data to the controller, which then relays the data to the other connected device (see Figure 1.6)

  8. StartEach device has a dedicated point-to-point link only to a central controller ( hub ). Does not allow direct traffic between devices Advantages: less expensive. Why ? each device needs only one link and one i/o port Easy to install and reconfigure One link fails, only that link is affected. Disadvantages : More cabling

  9. Bus Topology The preceding examples all describe point-to-point connections. A bus topology, on the other hand, is multipoint. One long cable acts as a backbone to link all the devices in a network (see Figure 1.7).Figure 1.7 A bus topology connecting three stations

  10. BusP2P or multipoint? Consists of one long cable acts as a backbone to link all the devices in a network. Use coaxial cable Advantages : Use less cabling Ease of installation. Disadvantages: Difficult reconnection. difficult to add new devices A fault in the bus cable will stop all transmission.

  11. Ring Topology In a ring topology, each device has a dedicated point-to-point connection with only the two devices on either side of it. A signal is passed along the ring in one direction, from device to device, until it reaches its destination. Each device in the ring incorporates a repeater. When a device receives a signal intended for another device, its repeater regenerates the bits and passes them along (see Figure 1.8).Figure 1.8 A ring topology connecting six stations

  12. 3-RingData is passed along the ring in one direction until it reaches its destination Advantages : Easy to install and reconfigure Suitable for fiber optic transmissionDisadvantages : 1 node down, network down.

  13. Hybrid Topology A network can be hybrid. For example, we can have a main star topology with each branch connecting several stations in a bus topology as shown in Figure 1.9.Figure 1.9 A hybrid topology: a star backbone with three bus networks

  14. Transmission ModeThe term transmission mode is used to define the direction of signal flow between two linked devices. There are three types of transmission modes:1- simplex2- half-duplex3- full-duplex SimplexIn simplex mode the communication is unidirectional as a one-way street. Only one of the two stations on a link can transmit the other can only receive.

  15. Half DuplexIn half duplex mode, each station can both transmit and receive but not at the same time. When one device is sending the other can only receive.The half duplex mode is like a one –lane road with two directional traffic. While cars are traveling one direction cars going the other way must wait.

  16. Full DuplexIn full-duplex mode (also called duplex), both stations can transmit and receive simultaneously. The full-duplex mode is like a two way street with traffic flowing in both directions at the same time.

  17. Categories Of Networking:Local area networkA local area network is usually privately owned and links the devices in a single office ,building ,or campus .Depending on the needs of an organization and the type of technology used , a LAN can be as simple as two PCs and a printer in some one’s home office or it can extend through out a company and include voice ,sound ,and video peripherals .Currently ,LAN size is limited to a few kilometers.LANs are designed to allow resources to be shared between personal computers or workstations

  18. Metropolitan Area NetworkMAN is designed to extend over an entire city. It may be a single network such as a cable television network, or it may be a means of connecting a number of LANs into a larger network so that recourses may be shared LAN-LAN as well as device-to-device .for example , a company can use a MAN to connect the LANs in all of its offices throughout a city .

  19. Wide Area NetworkWAN provides long –distance transmission of data, voice, image, and video information over large geographical areas that may comprise a country, a continent, or even the whole word.

  20. Internet works

  21. Digital Signal end office modem Telephone Exchange Copper Cable Analog Signal (voice band) Asynchronous RS-232C Digital Inside the PSTN Network end office modem COM port Example Network

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