Telecommunication & Networking

1. Telecommunication & Networking Lesson 5

2. ISO Open System Interconnect (OSI) Move to TCP/IP and VPN HTTP Application Presentation Session Routing Transport Network LLC Data Link MAC Physical

3. Dumb Terminal: No RAM, OS or CPU Minicomputer:VAX/VMS Mainframe:IBM 370 ARPANET Internet Or other networks Dumb Terminal

4. Workstation: CPU, RAM, OS, Local Storage,… NIC File Server File Server ARPANET Internet

5. HDLC • A bit-oriented data link protocol • Supports both half-duplex and full-duplex communication over point-to-point and multipoint links • ISO standard (1979) • Originated as IBM’s S(ynchronous)DLC in 1975 • ITU-T has developed other (link access) protocols (e.g., LAPB, PAPD, LAPM, etc.)

6. HDLC Frame Check Sequence Control Address Flag

7. Characteristics of HDLC • Station Types • primary : complete control of the link; sends commands to secondary. For example, a computer to a terminal • secondary • combined : sends commands and responses Primary Secondary Secondary

8. Configurations • Unbalanced • Symmetrical • Balanced

9. Modes of Communication • NRM - Normal Response Mode • standard primary-secondary relationship; a secondary must have permission from the primary device before transmitting • ARM - Asynchronous Response Mode • secondary may initiate transmissions without permission from primary if the link is idle • still primary-secondary relationship

10. Modes of Communication • ABM - Asynchronous Balanced Mode • all stations are equal (thus, combined configuration)

11. Frames • U-frames • unnumbered frames : reserved for management of frames • I-frames • information : data and control information • S-frames • supervisory : data link layer flow and error control information

12. Bit Stuffing - HDLC • A flag field is used for synchronization • 8-bit pattern : 01111110 • To prevent the same bit pattern to appear in the ‘data,’ a bit 0 is inserted after the fifth consecutive 1’s Flag Address Control Flag

13. IEEE 802 Standards • 802.1: High-Level Interface – addresses matters relating to networking… • 802.2: Logical Link Control Logical Link Control (LLC) Network Layer Media Access Control (MAC) Data Link Layer Physical Layer

14. 802.3: CSMA/CD • 1Base5: 1-Mbps baseband medium with a max segment length of 500 m • 10Base5 • 10Base2: 185 m with cable of Thinnet or Cheapernet • 10BaseT: with twisted-pair • 10Broad36: 10Mbps broadband medium, 3600-m • 100Base-TX: 100 Mbps baseband, twisted-pair • 100Base-FX: 100, baseband, fiber optic • 1000Base-Sx: 1000, baseband, fiber optic

15. 802.4: Token Bus • 802.5: Token Ring • 802.6: MANs – Distributed Queue Dual Bus (DQDB); two one-directional buses • 802.7: Broadband Technical Advisory Group • 802.8: Fiber Optic Technical Advisory Group • 802.9: Integrated Data and Voice Networks – setting standards to integrate with ISDN • 802.10: LAN Security • 802.11: Wireless LANS • 802.12: Demand Priority Access Method - standards for 100 Mbps over twisted pair wires

16. DLC Data Field 32-bit CRC Length Field Source Address Destination Address Start Frame Delimiter Preamble: Synchronization

17. MAC • To gain access to a medium, it uses a contention approach: • Each node ‘listens’ to the medium to see if it is being used (a message is passing through) [Carrier Sensing] • If no message, node begins transmission • [Multiple Access] occurs when more than one node performs step 2 above: begin sending; thus creating a collision

18. MAC • CSMA/CD: Carrier Sense with Multiple Access and Collision Detection – most commonly used MAC protocol in Ethernet LAN’s • A fair protocol: each node has an equal access; random intervals between access if collision occurs • CSMA/CA: Avoidance; time space out transmission for each node

19. Token Passing in MAC • One token goes around • Each node waits for the token • No message to send, send the token to next node • Message to send, send the message, wait for acknowledgement, and then send the token to next node • Bus versus Ring

20. Multiplexing • When two communicating devices/computers do not completely utilize the full capacity of a data link • FDM - frequency-division multiplexing • TDM - time-division multiplexing • statistical/asynchronous/intelligent TDM

21. Asynchronous TDM 1 2 MUX 1 4 3 4 1 3 4 5

22. Synchronous TDM 1 2 MUX 5 4 3 2 1 3 4 5

23. Digital Carrier Systems • AT&T used synchronous TDM to structure a hierarchy of multiplex formats • DS-1 (24 channels at 1.544 Mbps): provided by a T-1 carrier system • DS-4 (4032 channels at 274.176 Mbps) • OC-1: 51.84 Mbps (Optical Carrier) – SONET (synchornous optical network:ANSI) SDH (synchronous digital hierarchy: ITU-T)

24. Compression • Lempel-Ziv (LZ) algorithm • Used in ITU-T standard V.42bis • Also in ZIP • Maintain a dictionary of character strings, starting from the alphabet • Text-based compression

25. This course reviews data communication issues businesses have to face with in this new economy.  Information is pushing through in unforgiving speed, internally in a corporation to facilitate effective and efficient communications, and externally to consumers and business partners to fuel the frantic entry to B2C and B2B electronic commerce.   We will begin our investigation with transmission media that pave the 'road' for information to flow through in a complex networking environment with different levels of abstraction.  We will study some common protocol standards, the wireless communication trend and of course the networking technology behind the World Wide Web

26. Compression • M-JPEG (Motion Joint Photographic Experts Group): compress by individual frame (intraframe) • ITU-T H.261 • MPEG: interframe and intraframe

27. Network Layer • Routing: end-to-end not node-to-node • Network Control: status information to determine the best path • Congestion Control: balancing act • Collection of Accounting Data