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CDMA2000-1x????

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Contents GSM and CDMA Coverage Technologies of Mobile Communications CDMA: Past, Present, and Future The origins of spread spectrum are in military field and ... – PowerPoint PPT presentation

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Title: CDMA2000-1x????


1
Basic knowledge of CDMA
2
Contents
  • World Trends
  • The Cellular Concept and Multiple Access
    Techniques
  • Principles of CDMA
  • CDMA Major Features
  • Comparison with Other Technologies

3
GSM and CDMA Coverage
4
  • Evolution of CDMA

5
Technologies of Mobile Communications
6
CDMA Past, Present, and Future
  • The origins of spread spectrum are in military
    field and navigation systems
  • In 1949, John Pierce wrote a technical memorandum
    where he described a multiplexing system in which
    a common medium carries coded signals that need
    not be synchronized. This system can be
    classified as a time hopping spread spectrum
    multiple access system
  • In 1949, Claude Shannon and Robert Pierce
    introduced the basic ideas of CDMA by describing
    the interference averaging effect and the
    graceful degradation of CDMA
  • In 1950, De Rosa-Rogoff proposed a direct
    sequence spread spectrum system and introduced
    the processing gain equation and noise
    multiplexing idea

7
CDMA Past, Present, and Future
  • In 1956, Price and Green filed for the
    anti-multipath "RAKE" patent . Signals arriving
    over different propagation paths can be resolved
    by a wideband spread spectrum signal and combined
    by the RAKE receiver.
  • In 1961 ,The near-far problem (i.e., a high
    interference overwhelming a weaker spread
    spectrum signal) was first mentioned by Magnuski
  • For cellular application spread spectrum was
    suggested by Cooper and Nettleton in 1978
  • During the 1980s Qualcomm investigated DS-CDMA
    techniques, which finally led to the
    commercialization of cellular spread spectrum
    communications in the form of the narrowband CDMA
    IS-95 standard in July 1993
  • Commercial operation of IS-95 systems started in
    1996.

8
CDMA Past, Present, and Future
  • Multiuser detection (MUD) has been subject to
    extensive research since 1986 when Verdu
    formulated an optimum multiuser detection for the
    additive white Gaussian noise (AWGN) channel,
    maximum likelihood sequence estimator (MLSE)
  • During the 1990s ,wideband CDMA techniques with a
    bandwidth of 5 MHz or more have been studied
    intensively throughout the world, and several
    trial systems have been built and tested
  • Based on the above description, the CDMA era is
    divided into three periods
  • 1. the pioneer CDMA era
  • 2. the narrowband CDMA era
  • 3. the wideband CDMA era

9
 
Table 1. CDMA era
10
Evolution of Mobile communication system
N-BAND
W-BAND
Analog
Digital
11
Evolution from 2G to 3G
WCDMA
GSM
GPRS
TD-SCDMA
EDGE
cdma2000-3x 1X-EVDV
IS-95A
cdma2000-1x
HRPD
IS-95B

12
CDMA Concepts - Multiple Access Techniques -
Description of CDMA - Two Types of CDMA -
How does CDMA work? - DSSS Spreading
Time-Domain View - Spreading from a
Frequency-Domain View - CDMA Spread Spectrum
Payoff - CDMAs Nested Spreading Sequences
13
Multiple Access Techniques
  • FDMAFrequency division multiple access
  • Featureeach user is allocated a unique
    frequency band or channel
  • TACS AMPS
  • TDMATime Division Multiple Access
  • FeatureRadio spectrum is divided into time
    slots,and in each slot only one user is allowed
    to either transmit or receive.
  • GSM DAMPS
  • CDMACode division multiple access
  • FeatureIn CDMA each user is assigned a
    unique code sequence it uses to encode its
    information-bearing signal
  • IS-95/CDMA2000 /WCDMA/TD-SCDMA

14
Description of CDMA
  • The spreading signal is a pseudo-noise code
    sequence that has a chip rate which is greater
    than the data rate of the message.
  • All CDMA users occupy the same frequency at the
    same time! Frequency and time are not used as
    discriminators.
  • In cdma systems,the narrowband message signal is
    multiplied by a very large bandwidth signal
    called the spreading signal.
  • CDMA operates by using CODING to
  • discriminate between users.
  • Each user has its own pseudorandom codeword which
    is approximately orthogonal to all other
    codewords.
  • CDMA interference comes mainly from
  • nearby users
  • The receiver performs a time correlation
    operation to detect only the specific desired
    codeword.All other codewords appear as noise due
    to decorrelation.

15
Two Types of CDMA
16
How does CDMA work?
  • Sender combines data with a fast spreading
  • sequence, transmits spread data stream
  • Receiver intercepts the stream, uses same
  • spreading sequence to extract original data

17
Direct Sequence CDMA
For example Data rate 240 kb/s Spreading factor
16 Chip rate 3.84 Mchip/s
Data signal bit Code signal chip
18
DSSS Spreading Time-Domain View
19
Spreading from a Frequency-Domain View
20
CDMA Spread Spectrum Payoff
21
CDMAs Nested Spreading Sequences
22
Principle of spread-spectrum multiple access
  • Code signal consists of a number of code bits
    called "chips" that can be either 1 or 1.
  • Chip rate of the code signal must be much higher
    than the rate of the information signal.
  • In this figure, 10 code chips per information
    symbol are transmitted (the code chip rate is 10
    times the data rate) so the processing gain is
    equal to 10.

Block diagram of a DS-SS transmitter
Generation of a BPSK-modulated SS signal
23
Spreading the Spectrum
Original narrowband bit rate information
Fc Carrier frequency rb Bit rate rc Chip rate
Encoded wideband signal at symbol rate
Frequency
Fc
Fc rc
Fc rb
24
Receiver of a DS-SS signal
Receiver of a DS-SS signal
  • The receiver uses coherent demodulation to
    despread the SS signal, using a locally generated
    code sequence.
  • To be able to perform the despreading operation,
    the receiver must not only know the code sequence
    used to spread the signal, but the codes of the
    received signal and the locally generated code
    must also be synchronized.
  • This synchronization must be accomplished at the
    beginning of the reception and maintained until
    the whole signal has been received.
  • The code synchronization/tracking block performs
    this operation
  • After despreading a data modulated signal
    results, and after demodulation the original data
    can be recovered.

25
Spreading Sequences
  • Sequence properties
  • High ACF peak
  • Low ACF sidelobe ?inter-symbol interference
    (ISI)
  • Low CCF ?multi-user interference (MUI)

26
Block of DS-SS communication system
B
A
C
Information Demodulation
Spreading Modulation
Information Modulation
Despreading
b(t)
C(t)
fc
fc
Interference
PN
PN
A Point
B Point
C Point
27
  • Spreading spectrum Sequences(PN)
  • - Property of PN
  • - m-sequences
  • -Walsh Code

28
Property of PN
  • Correlation - The Rule of Sequence design
  • The ideal Sequence
  • The side peak value of auto-correlation(ACF) is
    zero
  • The value of cross-correlation(CCF) is zero
  • Ideal Sequence can eliminate co-channel
  • interference(MAI)
  • Unfortunately,We cant find the ideal
    sequence
  • So,our target is to find such sequence
  • The smaller of the side peak value of
    auto-correlation and the value of
    cross-correlation ,the better of the sequence.

Auto-correlation Function
Cross-correlation Function
29
Definition of ACF and CCF

Periodic sequence The Periodic ACF The
Periodic CCF
30
m-sequences
  • Good periodic ACF properties
  • Bad periodic CCF properties
  • CDMA operates by using different offset of the
    same m-sequence to discriminate between users for
    the bad periodic CCF properties
  • In IS-95 and IS2000 standard ,two kinds of
    m-sequences are used
  • short code and long code
  • The m-sequences are generated using shift
    register
  • The normative ACF of m-sequence

31
Spreading / Despreading
Despreading of mobile 1
Terminal transmission
Base station reception
31
32
Interference Rejection
Before despreading
After despreading
32
33
An Example of periodic ACF of m-sequence
  • length 15 m-sequence (- - - - - - - -
    )
  • here , - means 1,means -1

34
Introduction of the short code
35
Introduce of the long code
36
Walsh Code- orthogonal sequence
Walsh codes are generated by applying Hadamard
transform upon 0 repeatedly. Hadamard transform
is given by
  • most important feature Orthogonal
  • Walsh Sequence is Orthogonal when
    synchronized.
  • ACF and CCF of Walsh Sequence are not
    ideal when not synchronized.
  • Walsh function Set is self-contained.
  • Walsh Sequence with Length n can
    constitute n Sequences orthogonal one
    another.

37
Features of CDMA- Multiple Access Capability -
Protection Against Multipath Interference -
Privacy - Interference Rejection - Anti-Jamming
Capability, Especially Narrowband Jamming -
Low Probability of Interception(LPI)
38
Multiple Access Capability
  • If multiple users transmit a spread-spectrum
    signal at the same time, the receiver will still
    be able to distinguish between the users provided
    each user has a unique code that has a
    sufficiently low cross-correlation with the other
    codes.
  • Correlating the received signal with a code
    signal from a certain user will then only
    despread the signal of this user, while the other
    spread-spectrum signals will remain
  • spread over a large bandwidth.
  • Within the information bandwidth
  • the power of the desired user will be
  • larger than the interfering power
  • provided there are not too many
  • interferers, and the desired signal
  • can be extracted.
  • At the receiver 1 only the signal of
  • user 1 is "despread" and the data
  • recovered.

Principle of spread-spectrum multiple access
39
Protection Against Multipath Interference
  • The signals of the different paths
  • are all copies of the same transmitted
  • signal but with different amplitudes,
  • phases, delays, and arrival angles.
  • Adding these signals at the receiver
  • will be constructive at some of the
  • frequencies and destructive at others. In
    the time domain, this results in a dispersed
    signal.
  • If the code sequence has an ideal autocorrelation
    function, then the correlation function is zero
    outside the interval Tc,Tc, where Tc is the
    chip duration. This means that if the desired
    signal and a version that is delayed for more
    than 2Tc are received, coherent demodulation will
    treat the delayed version as an interfering
    signal, putting only a small part of the power in
    the information bandwidth.

40
Privacy
  • Privacy -- The transmitted signal can only be
    despread and the data recovered if the code is
    known to the receiver.

41
Interference Rejection
  • Cross-correlating the code signal with a
    narrowband signal will spread the power of the
    narrowband signal thereby reducing the
    interfering power in the information bandwidth.
  • The spread-spectrum signal (s) receives a
    narrowband interference (i). At the receiver the
    SS signal is "despread" while the interference
    signal is spread, making it appear as background
    noise compared to the despread signal.

Interference rejection
42
Anti-Jamming Capability
  • This is more or less the same as interference
    rejection except the interference is now
    willfully inflicted on the system. It is this
    property, together with the next one-LPI, that
    makes spread-spectrum modulation attractive for
    military applications.

43
Low Probability of Interception(LPI)
S(f)
Signal
  • Because of its low power density, the
    spread-spectrum signal is difficult to detect and
    intercept by a hostile listener.

Signal
f
f0
f
f0
Signal Frequency Before SS
Signal Frequency after SS
S(f)
S(f)
Signal
Noise
Noise
Signal
f
f0
f
f0
Signal Frequency Before Decoding
Signal Frequency After Decoding
Signal
Pulse Noise
Other Noise
44
Features of cdma2000-1X
  • Reverse Pilot Support
  • FunctionPhase reference,Coherent
    demodulation
  • For each cdma2000 user, either Turbo or
    Convolutional codes can be used.
  • Fast 800 Hz forward and reverse link power
    control.The reverse power control subchannel can
    be divided into two independent power control
    channel,the power control rate can be 400/400bps
    or 200/600bps for FCH/SCH.
  • Double the capacity vs. IS-95-A/B
  • Provide higher data rates more efficiently (up to
    307.2 kbps)

45
Features of cdma2000-1X
  • Support for Quasi Orthogonal Functions (QOF)
    increasing available forward channels
  • Quick paging channel. This allows the mobile to
    wake up for a shorter period of time before
    entering sleep mode, thereby increasing the
    standby time of phones.
  • OTD(Orthogonal Transmit Diversity) and STS(Space
    Time Spreading) transmit diversity

46
Power Control
  • Near-far ambiguity
  • Transmit just enough power to achieve min. SIR
  • Open loop path loss and shadow fading
  • Inner closed loop fast adjustment to achieve
    target SIR, compensates some fast fading
    (Rayleigh) and lower required SIR

46
47
Soft and Softer Handovers
  • CDMA has the ability to talk to multiple cells
    simultaneously a soft handover
  • When youre in a soft handover, its likely that
    theres at least one good link into the system
    nice!
  • Question What two characteristics of CDMA make
    this possible?

Soft handover region
Freq1
Freq1
Softer handover is when a terminal talks to
two sectors of the same cell
Answer Universal Frequency Re-use and Rake
Receivers
48
Soft/ Softer Handover
  • Soft Handover
  • The terminal is connected to (at least) two cells
  • The signals are combined in the RNC by means of
    e.g. selection combining using CRC
  • Softer Handover
  • The terminal is connected to two sectors within
    one cell
  • More efficient combining in the uplink is
    possible like maximum ratio combining (MRC) in
    the BTS.

49
Soft Handover Principle
soft handover area
Measurement Quantity
CPICH 1
CPICH 2
time
Link to 1
Link to 1 2
Link to 2
50
Multipath and Fading
  • Multipath signals can cancel each other, causing
    fading
  • Two receive antennas largely takes care of this
    problem because different places have different
    fading profiles
  • Fine for the uplink, but youve still got a
    problem on the downlink

Transmitter
Receiver
R Ant0
R Ant1
X
X
Distance
Base Station
Combiner
To receiver
51
RAKE Receiver for CDMA
Correlator 1
To De-Interleaver, Viterbi Decoder
Combiner
Correlator 2
Correlator 3
Search Correlator
Multipath Delay Components ( 150 ms gt Dt gt 1ms)
Rake receiver can isolate multipath spaced gt 1
chip length. Should one path fade for a short
while, another is probably still available
52
CDMA Advantages Vast Coverage
  • The coverage radius is 2 times of standard GSM.
  • Coverage of 1000 km2 GSM needs 200 BSs, while
    CDMA requires only 50.
  • Under the same coverage conditions, the number of
    BSs is greatly decreased.

53
CDMA Advantages Full Use of Spectrum
  • Spectrum of 10MHz (5MHz for transmitting, and
    5MHz for receiving)
  • Parameter CDMA WLL FIXED GSM
  • Bandwidth 1.25MHz 0.20MHz
  • Number of CF 3 25
  • Frequency reuse 1 4
  • Effective CF 3/13 25/46.25
  • Voice call/CF 25 to 40 7.25
  • Voice call/cell 75 to 120
    7.256.2545
  • Sector/cell 3 3
  • Voice call/sector 75 to 120 45/315
  • Erlangs/sector 64 to 107E 9.01E
  • Optimal situation, no guard band for GSM and
    AMPS
  • 0.75 fewer than 8 voice call/CF, which is used
    for overhead (e.g., control/pilot)
  • Based on 2 of air block

5 times of GSM!
54
CDMA Advantages High Quality Voice
Voice quality
64k PCM
8k CDMA
present GSM
13k CDMA
8k EVRC CDMA
55
CDMA Advantages Green handset
Low transmission power Accurate power control,
handoff control, voice activation
Power absorbed in the body is 2dB (0.4 mW in CDMA
and 25mW in GSM)
56
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