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Chapter 2 Key Term Network+ Guide to Networks

Chapter 2 Key Term Network+ Guide to Networks. Richard Goldman November 7, 2001. 802.3. (page 49) — The IEEE standard for Ethernet networking devices and data handling. 802.5. (page 49) — The IEEE standard for Token Ring networking devices and data handling. ACK. (acknowledgement)

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Chapter 2 Key Term Network+ Guide to Networks

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  1. Chapter 2Key TermNetwork+Guide to Networks Richard Goldman November 7, 2001

  2. 802.3 • (page 49) — The IEEE standard for Ethernet networking devices and data handling.

  3. 802.5 • (page 49) — The IEEE standard for Token Ring networking devices and data handling.

  4. ACK • (acknowledgement) • (page 41) —A response generated at the Transport layer of the OSI model that confirms to a sender that its frame was received.

  5. ANSI • (American National Standards Institute) • (page 34) — An organization composed of over a thousand representatives from industry and government who together determine standards for the electronics industry in addition to other fields, such as chemical and nuclear engineering, health and safety, and construction.

  6. API • (Application Programming Interface) • (page 42) — A routine (or set of instructions) that allows a program to interact with the operating system. APIs belong to the application layer of the OSI Model.

  7. Application Layer • (page 42) — The seventh layer of the OSI Model. The application layer provides interfaces to the software that enable programs to use network services.

  8. Block ID • (page 48) — The first set of six characters which make up the MAC address and which are unique to a particular vendor.

  9. CRC • (Cyclic Redundancy Check) • (page 47) —An algorithm used to verify the accuracy of data contained in a data frame.

  10. Data Link Layer • (page 38) — The second layer in the OSI Model. The data link layer bridges the networking media with the Network layer. Its primary function is to divide data it receives from the Network layer into frames that can then be transmitted by the Physical layer.

  11. Device ID • (page 48)— The second set of six characters which make up a network device’s MAC address. The Device ID is added at the factory, and is based on the device’s model and manufacture date.

  12. Ethernet • (page 46) — A networking technology originally developed at Xerox in 1970 and improved by Digital Equipment Corporation, Intel and Xerox. Today, four types of Ethernet technology are used on LANs, and each type is governed by a set of IEEE standards.

  13. EIA • (Electronics Industry Alliance) • (page 35) — A trade organization composed of representatives from electronics manufacturing firms across the United States.

  14. flow control • (page 41) — A method of gauging the appropriate rate of data transmission based on how fast the recipient can accept data.

  15. frame • (page 38) — A package for data that includes not only the raw data, or “payload,” but also the sender’s and receiver’s network addresses and control information.

  16. FCS • Frame Check Sequence • (page 44) —The field in a frame responsible for ensuring that data carried by the frame arrives intact. The Frame Check Sequence uses an algorithm, such as CRC, to accomplish this verification.

  17. IEEE • (Institute of Electrical and Electronic Engineers) • (page 35) — An international society composed of engineering professionals. Its goals are to promote development and education in the electrical engineering and computer science fields.

  18. ISO • (International Organization for Standardization) • (page 36) — A collection of standards organizations representing 130 countries with its headquarters located in Geneva, Switzerland. Its goal is to establish international technological standards to facilitate global exchange of information and barrier-free trade.

  19. ITU • (International Telecommunications Union) • (page 36) — A specialized United Nations agency that regulates international telecommunication usage, including radio and TV frequencies, satellite and telephony specifications, networking infrastructure, and tariffs applied to global communication. It also provides developing countries with technical expertise and equipment to advance their technological base.

  20. LLC • Logical Link Control sublayer • (page 49) — The upper sublayer in the Data Link layer. The LLC provides a common interface and supplies reliability and flow control services.

  21. MAC address • (page 48) —A number that uniquely identifies a network node. The MAC address is hard-coded on the NIC by its manufacturer. It is comprised of the block ID and device ID.

  22. MAC sublayer • Media Access Control sublayer • (page 48) — The lower sublayer of the Data Link layer. The MAC appends the physical address of the destination computer onto the frame.

  23. MSMQ • Microsoft Message Queueing • (page 42) — An API used in a network environment. MSMQ stores messages sent between nodes in queues then forwards them to their destination based on when the link to the recipient is available.network architect—A professional who designs networks from choosing their elements (such as cabling type) to figuring out how elements work together (such as what protocol to use).

  24. Network Layer • (page 40) — The third layer in the OSI model. The Network layer translates network addresses into their physical counterparts and decides how to route data from the sender to the receiver.

  25. OSI Model • Open Systems Interconnection Model • (page 37) — A model for understanding and developing computer-to-computer communication developed in the 1980s by ISO. This model divides networking architecture into seven layers: Physical, Data Link, Network, Transport, Session, Presentation and Application.

  26. Physical Layer • (page 38) — The lowest, or first, layer of the OSI Model. The Physical layer contains the physical networking media, such as cabling and connectors.

  27. Presentation Layer • (page 42) — The sixth layer of the OSI Model. The Presentation layer serves as a translator between the application and the network. At the Presentation layer data are formatted in a schema that the network can understand, and this format varies with the type of network used. The Presentation layer also takes care of data encryption and decryption, such as the scrambling of system passwords.

  28. reassembly • (page 40) — The process of reconstructing data units that have been segmented.

  29. route • (page 40) — To direct data between networks based on addressing, patterns of usage, and availability of network segments.

  30. routers • (page 40) — Devices that connect network segments and intelligently direct data based on information contained in the data frame.

  31. segmentation • (page 40) — The process of decreasing the size of data units when moving data from a network segment that can handle larger data units to a network segment that can handle only smaller data units.

  32. sequencing • (page 41)—The process of assigning each piece of a data block a placeholder to allow the receiving node’s Transport layer to reassemble the data in the correct order.

  33. session • (page 41) — A connection for data exchange between two parties. The term session is most often used in the context of terminal and mainframe communications.

  34. Session Layer • (page 41) — The fifth layer in the OSI Model. The Session layer is responsible for establishing and maintaining communication between two nodes on the network. It can be considered the “traffic cop” for network communications.

  35. standards • (page 34) — Documented agreements containing technical specifications or other precise criteria that are used as guidelines to ensure materials, products, processes and services suit their purpose.

  36. terminal • (page 41)— A device with little (if any) of its own processing or disk capacity that depends on a host to supply it with applications and data processing services.

  37. token • (page 43) — A special control frame that indicates to the rest of the network that a particular node has the right to transmit data.

  38. Token Ring • (page 45)—a networking technology developed by IBM in the 1980s. It relies upon direct links between nodes and a ring topology and uses tokens to allow nodes to transmit data.

  39. Transport Layer • (page 41) — The fourth layer of the OSI Model. The Transport layer is primarily responsible for ensuring that data is transferred from point A to point B (which may or may not be on the same network segment) reliably and without errors.

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