komunikasi data multiplexing ir. hary nugroho mt
TRANSCRIPT
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Komunikasi DataMultiplexing
Ir. Hary Nugroho MT.
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NetworkingConfiguration
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Multiplexing
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Frequency Division Multiplexing
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Frequency Division Multiplexing
FDM Useful bandwidth of medium exceeds required
bandwidth of channel Each signal is modulated to a different carrier
frequency Carrier frequencies separated so signals do
not overlap (guard bands) e.g. broadcast radio Channel allocated even if no data
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Frequency Division MultiplexingDiagram
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FDM System
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FDM of Three Voiceband Signals
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Analog Carrier Systems
AT&T (USA) Hierarchy of FDM schemes Group
12 voice channels (4kHz each) = 48kHz Range 60kHz to 108kHz
Supergroup 60 channel FDM of 5 group signals on carriers between 420kHz and 612
kHz
Mastergroup 10 supergroups
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Wavelength Division Multiplexing
Multiple beams of light at different frequency Carried by optical fiber A form of FDM Each color of light (wavelength) carries separate data channel 1997 Bell Labs
100 beams Each at 10 Gbps Giving 1 terabit per second (Tbps)
Commercial systems of 160 channels of 10 Gbps now available Lab systems (Alcatel) 256 channels at 39.8 Gbps each
10.1 Tbps Over 100km
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WDM Operation
Same general architecture as other FDM Number of sources generating laser beams at different
frequencies Multiplexer consolidates sources for transmission over single
fiber Optical amplifiers amplify all wavelengths
Typically tens of km apart Demux separates channels at the destination Mostly 1550nm wavelength range Was 200MHz per channel Now 50GHz
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Dense Wavelength Division Multiplexing
DWDM No official or standard definition Implies more channels more closely spaced
that WDM 200GHz or less
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Time Division Multiplexing
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Synchronous Time Division Multiplexing
Data rate of medium exceeds data rate of digital signal to be transmitted
Multiple digital signals interleaved in time May be at bit level of blocks Time slots preassigned to sources and fixed Time slots allocated even if no data Time slots do not have to be evenly
distributed amongst sources
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Time Division Multiplexing
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TDM System
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TDM Link Control
No headers and trailers Data link control protocols not needed Flow control
Data rate of multiplexed line is fixed If one channel receiver can not receive data, the others
must carry on The corresponding source must be quenched This leaves empty slots
Error control Errors are detected and handled by individual channel
systems
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Data Link Control on TDM
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Framing
No flag or SYNC characters bracketing TDM frames Must provide synchronizing mechanism Added digit framing
One control bit added to each TDM frame Looks like another channel - “control channel”
Identifiable bit pattern used on control channel e.g. alternating 01010101…unlikely on a data channel Can compare incoming bit patterns on each channel with
sync pattern
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Pulse Stuffing
Problem - Synchronizing data sources Clocks in different sources drifting Data rates from different sources not related by
simple rational number Solution - Pulse Stuffing
Outgoing data rate (excluding framing bits) higher than sum of incoming rates
Stuff extra dummy bits or pulses into each incoming signal until it matches local clock
Stuffed pulses inserted at fixed locations in frame and removed at demultiplexer
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TDM of Analog and Digital Sources
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Digital Carrier Systems
Hierarchy of TDM USA/Canada/Japan use one system ITU-T use a similar (but different) system US system based on DS-1 format Multiplexes 24 channels Each frame has 8 bits per channel plus one
framing bit 193 bits per frame
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Digital Carrier Systems (2)
For voice each channel contains one word of digitized data (PCM, 8000 samples per sec) Data rate 8000x193 = 1.544Mbps Five out of six frames have 8 bit PCM samples Sixth frame is 7 bit PCM word plus signaling bit Signaling bits form stream for each channel containing
control and routing info Same format for digital data
23 channels of data 7 bits per frame plus indicator bit for data or systems
control 24th channel is sync
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Mixed Data
DS-1 can carry mixed voice and data signals 24 channels used No sync byte Can also interleave DS-1 channels
Ds-2 is four DS-1 giving 6.312Mbps
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DS-1 Transmission Format
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SONET/SDH
Synchronous Optical Network (ANSI) Synchronous Digital Hierarchy (ITU-T) Compatible Signal Hierarchy
Synchronous Transport Signal level 1 (STS-1) or Optical Carrier level 1 (OC-1)
51.84Mbps Carry DS-3 or group of lower rate signals (DS1 DS1C DS2)
plus ITU-T rates (e.g. 2.048Mbps) Multiple STS-1 combined into STS-N signal ITU-T lowest rate is 155.52Mbps (STM-1)
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SONET Frame Format
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SONET STS-1 Overhead Octets
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Statistical TDM
In Synchronous TDM many slots are wasted Statistical TDM allocates time slots
dynamically based on demand Multiplexer scans input lines and collects
data until frame full Data rate on line lower than aggregate rates
of input lines
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Statistical TDM Frame Formats
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Performance
Output data rate less than aggregate input rates
May cause problems during peak periods Buffer inputs Keep buffer size to minimum to reduce delay
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Buffer Size and Delay
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Cable Modem Outline
Two channels from cable TV provider dedicated to data transfer One in each direction
Each channel shared by number of subscribers Scheme needed to allocate capacity Statistical TDM
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Cable Modem Operation
Downstream Cable scheduler delivers data in small packets If more than one subscriber active, each gets fraction of
downstream capacity May get 500kbps to 1.5Mbps
Also used to allocate upstream time slots to subscribers
Upstream User requests timeslots on shared upstream channel
Dedicated slots for this Headend scheduler sends back assignment of future tme
slots to subscriber
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Cable Modem Scheme
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Asymmetrical Digital Subscriber Line
ADSL Link between subscriber and network
Local loop Uses currently installed twisted pair cable
Can carry broader spectrum 1 MHz or more
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ADSL Design
Asymmetric Greater capacity downstream than upstream
Frequency division multiplexing Lowest 25kHz for voice
Plain old telephone service (POTS) Use echo cancellation or FDM to give two bands Use FDM within bands
Range 5.5km
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ADSL Channel Configuration
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Discrete Multitone
DMT Multiple carrier signals at different frequencies Some bits on each channel 4kHz subchannels Send test signal and use subchannels with better
signal to noise ratio 256 downstream subchannels at 4kHz (60kbps)
15.36MHz Impairments bring this down to 1.5Mbps to 9Mbps
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DTM Bits Per Channel Allocation
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DMT Transmitter
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xDSL
High data rate DSL Single line DSL Very high data rate DSL
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Required Reading
Stallings chapter 8 Web sites on
ADSL SONET
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Spread Spectrum
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Spread Spectrum
Analog or digital data Analog signal Spread data over wide bandwidth Makes jamming and interception harder Frequency hoping
Signal broadcast over seemingly random series of frequencies
Direct Sequence Each bit is represented by multiple bits in transmitted signal Chipping code
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Spread Spectrum Concept
Input fed into channel encoder Produces narrow bandwidth analog signal around central
frequency
Signal modulated using sequence of digits Spreading code/sequence Typically generated by pseudonoise/pseudorandom number
generator
Increases bandwidth significantly Spreads spectrum
Receiver uses same sequence to demodulate signal Demodulated signal fed into channel decoder
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General Model of Spread Spectrum System
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Gains
Immunity from various noise and multipath distortion Including jamming
Can hide/encrypt signals Only receiver who knows spreading code can retrieve
signal Several users can share same higher bandwidth
with little interference Cellular telephones Code division multiplexing (CDM) Code division multiple access (CDMA)
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Pseudorandom Numbers
Generated by algorithm using initial seed Deterministic algorithm
Not actually random If algorithm good, results pass reasonable tests of
randomness Need to know algorithm and seed to predict
sequence
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Frequency Hopping Spread Spectrum (FHSS)
Signal broadcast over seemingly random series of frequencies
Receiver hops between frequencies in sync with transmitter
Eavesdroppers hear unintelligible blips Jamming on one frequency affects only a few
bits
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Basic Operation
Typically 2k carriers frequencies forming 2k channels Channel spacing corresponds with bandwidth of
input Each channel used for fixed interval
300 ms in IEEE 802.11 Some number of bits transmitted using some encoding
scheme May be fractions of bit (see later)
Sequence dictated by spreading code
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Frequency Hopping Example
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Frequency Hopping Spread Spectrum System (Transmitter)
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Frequency Hopping Spread Spectrum System (Receiver)
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Slow and Fast FHSS
Frequency shifted every Tc seconds
Duration of signal element is Ts seconds
Slow FHSS has Tc Ts
Fast FHSS has Tc < Ts
Generally fast FHSS gives improved performance in noise (or jamming)
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Slow Frequency Hop Spread Spectrum Using MFSK (M=4, k=2)
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Fast Frequency Hop Spread Spectrum Using MFSK (M=4, k=2)
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FHSS Performance Considerations
Typically large number of frequencies used Improved resistance to jamming
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Direct Sequence Spread Spectrum (DSSS) Each bit represented by multiple bits using spreading code Spreading code spreads signal across wider frequency band
In proportion to number of bits used 10 bit spreading code spreads signal across 10 times bandwidth
of 1 bit code One method:
Combine input with spreading code using XOR Input bit 1 inverts spreading code bit Input zero bit doesn’t alter spreading code bit Data rate equal to original spreading code
Performance similar to FHSS
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Direct Sequence Spread Spectrum Example
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Direct Sequence Spread Spectrum Transmitter
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Direct Sequence Spread Spectrum Transmitter
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Direct Sequence Spread Spectrum Using BPSK Example
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ApproximateSpectrum of DSSS Signal
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Code Division Multiple Access (CDMA) Multiplexing Technique used with spread spectrum Start with data signal rate D
Called bit data rate Break each bit into k chips according to fixed pattern specific
to each user User’s code
New channel has chip data rate kD chips per second E.g. k=6, three users (A,B,C) communicating with base
receiver R Code for A = <1,-1,-1,1,-1,1> Code for B = <1,1,-1,-1,1,1> Code for C = <1,1,-1,1,1,-1>
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CDMA Example
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CDMA Explanation
Consider A communicating with base Base knows A’s code Assume communication already synchronized A wants to send a 1
Send chip pattern <1,-1,-1,1,-1,1> A’s code
A wants to send 0 Send chip[ pattern <-1,1,1,-1,1,-1>
Complement of A’s code Decoder ignores other sources when using A’s code to
decode Orthogonal codes
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CDMA for DSSS
n users each using different orthogonal PN sequence
Modulate each users data stream Using BPSK
Multiply by spreading code of user
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CDMA in a DSSS Environment
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Seven Channel CDMA Encoding and Decoding
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Required Reading
Stallings chapter 9