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Transmission Methods

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Receiver does not know when data is being sent. Start bit ... Video encoders used for MPEG content and IP multicast. IP network security ... – PowerPoint PPT presentation

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Title: Transmission Methods


1
Chapter 5
  • Transmission Methods

2
Asynchronous Transmission
  • Baud
  • Signaling rate that data is sent through a
    channel
  • Measured in bits per second (bps)
  • Asynchronous
  • Start/stop transmission of bits
  • Receiver does not know when data is being sent
  • Start bit
  • Bit at beginning of a character and is always 0
  • Stop bit
  • Bit at end of a character and is always 1

3
Asynchronous Transmission
4
Synchronous Transmission
  • Bits grouped and sent as data frame
  • Eliminates start and stops bits
  • Can be bit oriented or character oriented
  • Bit oriented uses 8-bit pattern as a flag to
    start the frame
  • Uses self-clocking to overcome propagation delay
  • Sender and receiver must synchronize
  • Special Character alerts receiver
  • Synch character used to identify bit groups

5
Synchronous Transmission (cont.)
  • Internal clocking source
  • Modem aligns transmitter and receiver
  • Does not require start or stop bits to alert
    receiver
  • Characters arrive in continuous stream of bits
    called data frames
  • Bipolar encoding used to maintain clock
    synchronization over long periods of time

6
Character Synchronization
7
Duplex Operations
  • Three types of channels for wired, cabled or
    radio frequency communications
  • Simplex
  • Half-duplex
  • Full-duplex

8
Simplex Half-Duplex
  • Simplex
  • Supports flow of data in one direction only
  • Sender cannot receive
  • Receiver cannot send
  • Half-Duplex
  • Data passes both directions but only not at same
    time
  • Two wires are required for communication

9
Half-Duplex Communication
  • Data passes both directions but only one at a
    time
  • Both devices can send and receive
  • Not simultaneously
  • Two wires are required for communication

10
Full Duplex Communication
  • Supports simultaneous bi-directional data flow
  • Both devices send and receive simultaneously
  • Uses four wires for communication
  • Transmits over one pair of wires in one direction
  • Receives data on other pair

11
Four Wire Full Duplex Operation
12
Frequency Bands
  • Baseband
  • Digital-only technology
  • Information carried in digital form on a single
    channel (Ethernet LANs)
  • Broadband
  • Abundance of bandwidth
  • Operates over wide band of frequencies
  • Narrowband
  • Carries voice information in specific frequency
    range
  • Wideband
  • Large capacity analog or digital circuits

13
Broadband Media Services
  • Digital broadband
  • Pathway for streaming media services
  • Users receive continuous real-time streams
  • Competes with cable TV services
  • Data and multimedia signal delivery at high rates

14
Next Generation IP NetworkBroadband IP
  • DSLAM
  • DSL Multiplexer
  • Broadband Access Servers at broadcast facilities
  • Loop management devices to manage DSL services
  • Video servers
  • Act as content repositories for video streaming
  • Video encoders used for MPEG content and IP
    multicast
  • IP network security
  • Authentication for user identification

15
Multiplexing
  • Single line supports multiple signals
  • Simultaneous Transmission and Reception
  • Advantages
  • Efficient line use
  • Lower line costs
  • Improved reliability
  • Lower DCE Costs

16
Multiplexing Elements
  • CSU/DSU
  • Provides ports for physical connection
  • Connects the local loop to the CO
  • Buffer
  • Buffers incoming data and provides data bit
    storage
  • Frame Builder/Multiplexer
  • Multiplexes information into an aggregate stream
  • Line Interface
  • Converts aggregate stream of data into a format
    suitable for line transmission

17
Frequency Division Multiplexing
  • Divides one channel into several channels or
    frequency bands
  • Each band carries different signal
  • Signals sent through multiplexer at same time
  • Receiving end demultiplexes signal
  • Frequency is filtered and separated
  • Signal sent to its final destination

18
Time Division Multiplexing
  • Baseband technology
  • Individual data/voice channels interwoven to
    single stream
  • Framed bits and transmitted across communications
    channel
  • Use dedicated data grade lines at constant
    frequency
  • Splits circuit into time slots
  • Assigns a channel to a repeating set of slots
  • Also called Bandsplitting
  • Divides the line and bandwidth
  • Establishes smaller data rates

19
Statistical Time Division Multiplexers
  • Microprocessor offers buffering capability
  • Line and Channel diagnostics
  • Event reporting
  • Dual line sharing
  • Load balancing between lines
  • Data switching

20
Flow Control
  • Statistical multiplexers use flow control
  • Regulate flow of data through routers
  • Ensures that no network segment becomes
    overloaded
  • Flow control methods employed to stop and resume
    data flow

21
Wave Division Multiplexing
  • FDM technique used with fiber optic cable
  • Divides light traveling through single fiber
    strand
  • Optical channels referred to as lambda circuits
  • Multiple channels transmitted over single fiber
  • Each is sent at a different wavelength
  • Each wavelength is a different color of light
  • Infrared range is utilized to carry data

22
WDM
  • Laser produces light in range called a window
  • Windows use wavelengths of 850, 1320, 1,400,
    1,550, 1,620 nanometers (nm)
  • WDM supports 24 channels
  • One wavelength can carry OC-3 for voice, another
    OC-12 for data

23
Jitter Wander
  • Jitter
  • Difference between one timed signal and another
  • Causes
  • Changes in cable delay due to temperature changes
  • Drift due to DC offsets in phase-locked loops of
    clock
  • Random phase transients as synchronization
    distribution chain is reconfigured
  • Frequency differences due to loss of
    synchronization at a node

24
SDH Line Jitter
  • Concern about video signal degradation
  • SDH data stream is regenerated
  • Optical or Radio link repeaters used
  • Regeneration process introduces jitter
  • Tends to build as more regenerator sections added
  • Line jitter is avoided by using scrambling
  • Scrambling creates a new data stream pattern
  • Scrambling used at every regenerated section

25
Signal Phase Variation
26
Dense Wave Division Multiplexing
  • DWDM Fiber optic transmission technique
  • Employs wavelengths of light transmitting data
  • Parallel by bit or serial by character
    transmission
  • Supports eight or more wavelengths per channel
  • Combines multiple optical signals so they can be
    grouped
  • Multiple signal transports on single fiber
    increases capacity
  • Incoming optical signals are assigned to specific
    frequencies
  • Resulting signals are multiplexed out onto one
    fiber

27
Dense Wave Division Multiplexing
28
Quote of the Day
  • Anyone who goes to a psychiatrist ought to have
    his head examined.
  • Samuel Goldwyn
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