1 / 43

Lecture-8/ T. Nouf Almujally

Telecommunications and Networks Section 2 “Telecommunications Network Alternatives” Chapter 6. Lecture-8/ T. Nouf Almujally. Telecommunications Network Alternatives. Telecommunications is a highly technical, rapidly changing field.

sakina
Download Presentation

Lecture-8/ T. Nouf Almujally

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Telecommunicationsand Networks • Section 2 “Telecommunications Network Alternatives” • Chapter 6 Lecture-8/ T. NoufAlmujally

  2. Telecommunications Network Alternatives Telecommunications is a highly technical, rapidly changing field Most business professionals don’t needdetailed technical knowledge However, understanding basic componentsand their characteristics is necessary Can help you make informed decisions abouttelecommunications alternatives

  3. Telecommunications Network Model • A telecommunications network is any arrangement where… • A sender transmits a message to a receiver • Over a channel • Consisting of some sort of medium

  4. Key Telecommunications Network Component Categories • Terminals • Any input/output device that uses telecommunications networks to transmit or receive data • Example: Networked personal computers, network computers or information appliances.

  5. Con. • Telecommunications processors • Devices that support data transmission and reception between terminals and computers. • Control and support functions in telecommunications network. • Convert data from digital to analog and back • code and decode data • control the speed, accuracy, and efficiency of the communications flow between computers and terminals in a network. • Example: modems, switches, and routers

  6. Con. • Telecommunications channels • Media over which data are transmitted and received • Example: copper wires, coaxial cables, microwave, cellular systems • Computers • All sizes and types of computers are interconnected by telecommunications networks.

  7. Con. • Telecommunications control software • Controls telecommunications activities • Manages the functions of telecommunications networks • Example: network management programs of all kinds such as, • Telecommunications monitors (mainframes) • Network operating systems (network servers) • Web browsers (microcomputers)

  8. Wide Area Local Area Peer-to-Peer Virtual Private Client/Server Types of Communications Networks Communication Networks

  9. 1- Wide Area Network (WAN) • Telecommunications networks covering a large geographic area. • WANs are used by many multinational companies to transmit and receive information among their employees, customers, suppliers, and other organizations across cities, regions, countries, and the world.

  10. 2- Local Area Network (LAN) • Connects computers within a limited physical area, such as an office, classroom, or building. • To communicate over the network: • each PC usually has a circuit board called “network interface card” • Most LANs use more powerful microcomputer with a large hard disk capacity, called “file server” or “network server”. • It contains a network operating systemprogram that controls telecommunications and the use and the sharing of network resources.

  11. Local Area Network (LAN) • LAN allows users to share hardware, software, and data resources.

  12. 3- Virtual Private Network • VPN is used to establish secure intranets and extranets • The Internet is the main backbone network • Relies on network firewalls, encryption, and other security features • VPN = “pipe” travelling through the Internet • Creates a private network without the high cost of a separate proprietary connection

  13. Virtual Private Network

  14. 4- Client/Server Network • Clients • End user personal computers or networked computers • Servers • Used to manage the networks • Processing • Shared between the clients and servers • Sometimes called a two-tier architecture • Downsizing: Larger computer systems are being replaced with multiple client/server networks

  15. Client/Server Network

  16. Network Computing • Called network centric • Views networks as the central computing resource of the organization • Thin clients provide a browser-based user interface for processing small application program called applets • Thin clients include: • Network computers • Net PCs • Other low-cost network devices or information appliances

  17. Network Computing • Application and database servers provide • The operating system • Application software • Applets • Databases • Database management software • Sometimes called a three-tier client/server model because it consists of: • Thin clients • Application servers • Database servers

  18. Network Computing

  19. 5- Peer-to-Peer Networks Central Server Architecture P2P file-sharing software connects all PCsto a central server The server sends the requesting PC a list oflinks to all active peers who have the file Clicking a link connects the two PCs andautomatically transfers the file to the requesting PC

  20. Peer-to-Peer Networks Pure Peer-to-Peer Architecture No central directory or server File-sharing software connectsone PC to another online user When you request a file, the softwaresearches every online user, then sendsyou a list of active file names Clicking a link automatically transfers the filefrom that user’s hard drive to yours

  21. Peer-to-Peer Network Diagrams

  22. Disadvantages Advantages Directory servercan be slowed or overwhelmed bytoo many users or technical problems Can better protect the integrity and security of the content and users of the network Central Server Peer-to-Peer Networks

  23. Disadvantages Slow response times bogus and corrupted files Pure Peer-to-Peer Networks

  24. Telecommunications Media • Telecommunications channels make use of a variety of telecommunications media. • These include: • Wired technologies: which physically link the devices in a network. • Wireless technologies: which uses microwave, radio waves or infrared light to transport digital communications without wires between communication devices.

  25. Wired Technologies • Twisted-Pair Wire • Ordinary telephone wire • Copper wire is twisted into pairs • The most widely used medium for telecommunications, used in home and office telephone systems and many LANs and WANs. • Used in established communications networks throughout the world for both voice and data transmission. • Transmission speeds can range from 2 million bits per second (unshielded) to 100 million bits per second (shielded).

  26. Twisted-Pair Wire Shielded Twisted–pair cable Unshielded Twisted–pair cable

  27. Wired Technologies • Coaxial Cable • Sturdy copper or aluminum wire wrapped with spacers to insulate and protect it. • The cable’s cover minimize interference and distortion of the signals the cable carries. • They allow high speed data transmission from 200 to more than 500 million bits per second (200-500 Mbps). • Used in high-service metropolitan areas, LANs and for short distance connections of computers and peripheral devices.

  28. Wired Technologies • Fiber-Optic Cable • One or more hair-thin filaments of glass fiber wrapped in a protective jacket. • Transmission rates are high (trillions of bits per second) • Fiber-optic are not affected by and do not generate electromagnetic radiation; therefore multiple fibers can be placed in the same cable. • Need less repeaters for signal retransmissions. • Expected to replace other communications media

  29. The Problem of “The Last Mile” • Network providers use fiber optic cable as a communications backbone. • Houses connected to the backbone are wired with twisted pair (can’t handle the bandwidth provided by fiber) • Users don’t benefit from the faster, better technology. • Methods to solve this problem: • Using sophisticated technologies, only coaxial wire that originally put there. • Bypassing the old wired network completely and provide high speed services via a satellite or other wireless approach. • WiMax (still under development stages)

  30. WiMax

  31. Cellular andPager Systems Communications Satellites TerrestrialMicrowave • Use radio technologies • Geographic areas divided into cells • Each cell has low-power transmitter or radio relay antenna • Computers & other communications processors coordinate/control transmissions to/from mobile users • Use microwave radio signals Serve as relay stations Earth stations beam signals to the satellites that amplify and retransmit the signals to other earth stations • Not suitable for interactive, real-time processing Earthbound microwave systems transmit high-speed radio signals in a line-of-sight path between relay systems spaced about 30 miles apart Antennas placed on top of buildings, towers, and mountain peaks. Wireless Technologies

  32. Wireless Technologies Terrestrial Microwave • Cellular,PCS telephone &Pager Systems Communications Satellites

  33. Wireless Web Bluetooth WirelessLANS • Wireless access to the Internet is growing as more web-enabled information appliances appear. • Smart telephones, PDAs all are very thin clients in wireless networks • WAP (Wireless Application Protocol) is the foundation of wireless mobile Internet and Web Applications. Short-range wireless Connects PCs to peripheral devices Operating at 1 Mbps – range from 10 to 100 meters Its a cable replacement technology Uses wireless radio-wave technology to connect PCs within an office or building Wi-Fi is faster and less expensive than common wire-based LAN technologies Wireless Technologies

  34. The Wireless Protocol (WAP)

  35. Telecommunications Processors • Telecommunication Processors: Perform a variety of support functions between the computers and other devices in a telecommunications network. 1- Modems: • the most common type of communications processor. Converts a digital signal to an analog frequency that can be transmitted over phone lines, then back into a digital signal (modulation and demodulation). • Come in several forms. • Support a variety of functions. • Transmission error control, faxing, and Automatic dialling and answering

  36. Telecommunications Processors Telecommunications networks are interconnected by special-purpose communications processors called : • Internetwork Processors: such as • Hub and Switch: makes connections between telecommunications circuits in a network. They provide automatic switching among connections called “ports” for shared access to a network’s resources. • Bridge: connect two or more LANs that use the same communications rules or protocol. • Router: intelligent communications processor that interconnects networks based on different protocols

  37. Telecommunications Processors

  38. Communications Processors 3. Multiplexer: • Allows a single communications channel to carry simultaneous data transmissions from many terminals. • Multiplexers work to increase the number of transmissions possible without increasing the number of physical data channels.

  39. Telecommunications Software • Telecommunications and network management SW may reside in PCs, servers, mainframes, and communications processors. • Vital part of all telecommunications networks. • Used to manage network performance. • Servers rely on network operating systems like Novell Netware, UNIX, Microsoft Widows Servers.

  40. Network Management Functions TrafficManagement Manage network resources & traffic to avoid congestion, optimize service levels Security Provide authentication, encryption, firewall, auditing. Network Monitoring Troubleshoot & watch over the network, alerting administrators to problems Capacity Planning Survey network resources, traffic patterns, and users’ needs Determine the best way to accommodate network needs as it grows and changes

  41. Network Topologies Topology: The structure of a network • Star Network • Ties end user computers to a central computer • Ring Network • Ties local computer processors together in a ring on a relatively equal basis • Bus Network • Local processors share the same communications channel • Mesh Networks • Uses direct communications lines to connect some or all of the computers to one another.

  42. Network Topologies

  43. Read from Chapter 6 (Section 2)

More Related