FDM versus OFDM - PowerPoint PPT Presentation

1 / 13
About This Presentation
Title:

FDM versus OFDM

Description:

Overlapping, but orthogonal bands (e.g. sinc functions) Sample at ... Rb/K blocks/s. Rb/b symbols/s. Rb/b symbols/s (N C) symbols/block. RS symbols/s. freq ... – PowerPoint PPT presentation

Number of Views:1729
Avg rating:3.0/5.0
Slides: 14
Provided by: imec7
Category:
Tags: fdm | ofdm | rb | versus

less

Transcript and Presenter's Notes

Title: FDM versus OFDM


1
FDM versus OFDM
  • FDM
  • Frequency Division Multiplexing
  • Frequency guard bands
  • OFDM
  • Orthogonal FDM
  • Overlapping, but orthogonal bands (e.g. sinc
    functions)
  • Sample at appropriate points
  • Much denser than FDM

2
Digital Modulation/Multiplexing
  • Only values at sample points are important and
    contain data
  • IFFT generates the time samples corresponding to
    these frequency points
  • IFFT generates an infinite periodic time
    sequence, but only the first N samples are sent
    over the channel (these samples contain exactly
    the same information as the frequency points)
  • This windowing to N samples results in a
    convolution with a sinc function in the frequency
    domain (which has the orthogonality property)

3
Data Transmission Sequence
  • Data is grouped into blocks and each block is
    treated sequentially
  • Each block i consists of N symbols which are
    transformed into N time samples using the IFFT

4
Upconverting and Multiplexing

ej.2?.F.t
p
s

cN-1
xN-1
5
Fast Fourier Transform

p

cN-1
xN-1
x0


xk
N-IFFT


xN-1
6
Single Carrier versus Multicarrier
  • Single carrier and multicarrier both
  • send N symbols in NT, or 1/T symbols/second
  • have a total single sided bandwidth of about 1/T

Single carrier
7
Inter Symbol Interference (ISI)
  • Single carrier system
  • Multipath components cause interference between
    the desired symbol and previous ones

?
  • Multicarrier system
  • A cyclic prefix is added, which consists of C
    duplicate symbols
  • The length of the cyclic prefix is chosen such
    that C.T gt ?
  • Behaves as a cyclic convolution with the channel
    response

8
Frequency Response
  • Cyclic convolution results in multiplication of
    frequency data points with the FFT of the channel
    response ( channel frequency response)
  • Each data point is thus multiplied by a single
    factor

9
Overall System View
  • Typically QAM (quadrature amplitude modulation)
    is used to modulate the bits onto symbols, but
    any modulation is possible

b 4 bits/symbol
b 2 bits/symbol
b 6 bits/symbol
16-QAM
4-QAM
64-QAM
10
Equalizing
  • 1-tap equalizer, channels with small ?k may be
    treated as erasures at the receiver
  • Adaptive loading takes channel info into account
    at the sender

Without adaptive loading
With adaptive loading
11
Adaptive Loading
  • Assign bi and Pi such that Ptot is minimized
  • Send more information when channel is good
  • Channel needs to be estimated (as for
    equalization)
  • Loading information needs to be fed back to the
    transmitter
  • The channel must remain quasi-stationary between
    estimation updates (low Doppler rate)

12
Things to Consider About OFDM
  • Dynamic range at output of IFFT is much larger
    than at input (or single carrier systems) large
    peak-to-average ratio (PAR)
  • Very good frequency synchronization is crucial to
    maintain orthogonality (otherwise ISI)
  • Example use OFMA as multiple access technique

13
Different Flavors of Multicarrier Systems
  • Discrete Multi Tone (DMT)
  • Terminology used in xDSL systems
  • In what is it different from OFDM? Nobody knows.
  • DMT baseband ? OFDM passband / DMT loaded ? OFDM
    unloaded ??
  • Different Variations of OFDM (none of them use
    adaptive loading)
  • W-OFDM or Wideband OFDM (WiLAN)
    http//www.wilan.com
  • Basis for 802.11a and new 802.16
  • Data rate up to 30 Mbps at 70 mph
  • Reed-Solomon coding with erasures
  • large carrier spacing (wideband) to simplify
    frequency synchronization
  • V-OFDM or Vector OFDM (CISCO) http//www.cisco.co
    m
  • MMDS microwave band, non-line-of-sight
  • 2-fold receive antenna diversity (vector), up
    to 44 Mbps
  • Flash-OFDM (Flarion) httpwww.flarion.com
  • Fast frequency hopping on OFDM (flash)
  • Data rate 384 kbps 3 Mbps at highway speeds,
    aimed at 3G systems
  • Market trail in one big city this year,
    commercial availability in 2002
Write a Comment
User Comments (0)
About PowerShow.com