simulation and analysis of 3g air interface wideband coded division multiple access working in...
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Simulation and Analysis of 3G Air interface Wideband Coded Division Multiple Access working
in Downlink FDD
Electronics and Communication Department,Institute of Technology,Nirma University,Ahmedabad-382481.
4th August, 2012
As Part of Pedagogy Activity in EC Department, 2011, 2012
Presented By:Prof. Amit [email protected]
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Meaning
Knowledge, the Object of knowledge, and the knower are the three factors that motivate the action; the senses, the work, and the doer are the three constituents of action
--The Bhagavad Gita(18.18)
ज्ञा�नं� ज्ञा�यं� परिज्ञा�ता� त्रि�त्रि धा� कर्म� च यंत्तु� दनं� ।कणं� कर्म� कता�त्रिता त्रि�त्रि धा� कर्म�सं�ग्रहः� ॥१८- १८॥
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Presentation OutlineThe ObjectiveStandardization BodyMotivation to work WCDMA ParametersCDMA Transmitter and Receiver: A General ApproachAir Interface ArchitectureWCDMA ChannelsWCDMA Transmitter
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The Objective of the Lecture
How the Technology has evolved.
Various Air Interfaces of 3G
Physical Layer of WCDMA Working In Downlink FDD
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First Mobile Radio Telephone
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Today’s Mobile
Source:www.gsmarena.com
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Presentation OutlineThe ObjectiveStandardization BodyMotivation to work WCDMA ParametersCDMA Transmitter and Receiver: A General ApproachAir Interface ArchitectureWCDMA ChannelsWCDMA Transmitter
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Migration to 3G
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Migration to 3G
Source: univ.zte.com/cn
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3GPP- A Global Initiative
3GPP - Third Generation Partnership ProjectARIB - Association of Radio Industries and BusinessesCWTS - China Wireless Telecommunication Standard groupETSI - European Telecommunications Standards InstituteT1 - Standards Committee T1 TelecommunicationsTTA - Telecommunications Technology AssociationTTC - Telecommunication Technology CommitteeIETF - Internet Engineering Task ForceITU-R - International Telecommunication Union -RadiocommunicationITU-T - International Telecommunication Union - Telecommunication Standardization
Source: univ.zte.com/cn
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IMT-2000 Vision Includes
Source: www.itu-t.com
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UMTS General Architecture
Figure : General Architecture
Mobile Equipment : Radio Transmission & contains applications.
Mobile Termination, Terminal Equipment
USIM : Data and Procedures which unambiguously and securely identify itself in Smart Card.
User Equipment:
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3GPP Rel.6 ObjectivesMigration from GSM based Network to
3G standard WCDMAScope and definition in progressIP Multimedia Services, phase 2„IMS messaging and group managementWireless LAN interworkingSpeech enabled services
„ Distributed speech recognition (DSR)Number portabilityOther enhancements
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3GPP2 Defines3rd Generation Partnership Project “Two” �Separate organization, as 3GPP closely
tied to GSM and UMTS �Goal of ultimate merger (3GPP + 3GPP2)
remains
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Various Air interfaces of 3G
3G
standards TD-SCDMA
CDMA2000
WCDMA
CDMA is the main technology of 3G
CDMA 2000
UWC
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Presentation OutlineThe ObjectiveStandardization BodyMotivation to work WCDMA ParametersCDMA Transmitter and Receiver: A General ApproachAir Interface ArchitectureWCDMA ChannelsWCDMA Transmitter
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Architecture of channel Adaptive Hybrid ARQ/FEC
( ) ( )( ) ( )
2
opt
opt
R n rttn R n rttnR n R n rttn
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CDMA Vs. WCDMA
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Concepts We have to knowSimplex Vs. DuplexCircuit Switching Vs. packet switchingTDD Vs. FDDSymmetric Vs. Asymmetric TransmissionTDMA Vs FDMASpread Spectrum
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Simplex Vs. Duplex
Fig. Simplex Scenario
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Simplex Vs. Duplex
Fig. Duplex Scenario
While in Duplex we have access to both transmitter and receiver Simultaneously.
Mobile can Send and receive data Simultaneously
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Circuit Switching Vs. packet Switching
Traditional Connection for Voice Communication requires that a Physical path Connecting the users at the end of the line and that path stays open until the Conversation ends. This is Called Circuit Switching.
Most Modern Technology Defers from this Traditional Model because they uses packet data.
Chopped into pieces
Given a destination address
Mixed with other data from other Source
Transmitted over channel with other data
Reconstructed at other end
Packet Data was originally developed for Internet.
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WCDMAWorks in Two mode
TDD
Guard time
FDDGuard frequency
MS BS
FDD and TDD systems frequency allocation
Source: Information and Communication university.
freq
uen
cy
Time
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FDD - WCDMA Improved performance over 2G systems:
Improved Capacity and coverage
Coherent uplink using a user-dedicated pilot
Fast power control in the downlink
Seamless inter-frequency handover
High degree of service flexibility:
Multi-rate service : with maximums of 144-384 Kb/s for full coverage and 2 Mb/s for limited coverage
Packet access mode
High degree of operator flexibility:
Support of asynchronous inter-base-station
Support of different deployment scenarios, including hierarchical cell structure (HCS) and hot-spot scenarios
Support of new technologies like multi-user detection (MUD) and adaptive antenna arrays (SDMA)
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Symmetric vs. Asymmetric Transmission
Same Data rate for Uplink and downlink
Different Data Rate
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Presentation OutlineThe ObjectiveStandardization BodyMotivation to work WCDMA ParametersCDMA Transmitter and Receiver: A General ApproachAir Interface ArchitectureWCDMA ChannelsWCDMA Transmitter
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WCDMA ParametersChannel bandwidth 5 MHz
Duplex mode FDD and TDD
Downlink RF channel structure Direct spread
Chip rate 3.84 Mbps
Frame length 10 ms
Data modulation QPSK (downlink), 8 PSKBPSK (uplink)
Channel coding Convolutional and turbo codes
Coherent detection User dedicated time multiplexed pilot (downlink and uplink), common pilot in the downlink.
Multirate Variable spreading and multicode
Spreading factors 4–256 (Downlink), 4–512 (Uplink)
Spreading (downlink) OVSF sequences for channel separationGold sequences 218 -1 for cell
Spreading (uplink) OVSF sequences, Gold sequence 241-1
Handover Soft handoverInterfrequency handover
Source: [21]
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Presentation OutlineThe ObjectiveStandardization BodyMotivation to work WCDMA ParametersCDMA Transmitter and Receiver: A General ApproachAir Interface ArchitectureWCDMA ChannelsWCDMA Transmitter
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CDMA Transmitter And Receiver
Source of Information Transmitter D/A
IF/RF upconverter
Spreader
PN Code
Fig. Block diagram of the mobile transmitter
Sink Receiver Front End
Despreader 1
PN Code
Fig. Block diagram of the base station receiver
Selection of Code is Utmost Important
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Spreading in WCDMA
an = c1 an-1 + c2 an-1 + ... + cr an-
Pseudo Random (PN) sequence: A bit stream of ‘1’s and ‘0’s occurring A bit stream of ‘1’s and ‘0’s occurring randomly, or almost randomly, with some unique properties.randomly, or almost randomly, with some unique properties.
Linear shift registerLinear shift register
an an-1 an-2 an-r
c1 c2 c3 cr
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Spreading and Scrambling in WCDMA
Spreading: To multiply the input information bits by a PN code and get processing gain, the chip level signal’s bandwidth is much wider than that of input information bits. It maintains the orthogonality among different physical channels of each user.
Scrambling: To separate the signals from the different users. It doesn’t change the signal bandwidth. Each cell has a unique scrambling code in the system.
X XData
Spreading Scrambling
Bit Rate Chip Rate Chip Rate
S
P
Modulation Mapper
Downlink Physical Channel
Cch,SF,m
I
Q
J
I+JQ
Sdl,n
STo
Fig. Relation between spreading and scrambling [11]
Fig. Spreading for all downlink physical channels except SCH [11]
WCDMASelecting codes
high autocorrelation low cross correlation
Suppressing interference
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Spreading in WCDMA OVSF Code and Gold Code
OVSF Code:Purpose: SpreadingGeneration Methedology: Code-Tree
Gold Code:Purpose: ScramblingGeneration: modulo-2 sum of 2 m-sequences
Fig. Auto and cross correlation of Gold Code
C1,1= 1
C2,1=1 1
C2,2=1 -1
C4,1=1 1 1 1
C4,2=1 1 -1 -1
C4,3=1 -1 1 -1
C4,4=1 -1 -1 1
Fig. Auto-correlation and cross correlation between
the OVSF codes of length 128
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OVSF Code
Fig OVSF code Matrix of 4 ×4 length.
Fig OVSF code Matrix of 8 ×8 length.
Fig OVSF code plot for code number 6 from 128 ×128 OVSF code Matrix
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Gold Code
Fig Scrambling code generation
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A set of Gold codes can be generated with the following steps.
Pick two maximum length sequences of the same length such that their absolute cross-correlation is less than or equal to
where is the size of the LFSR used to generate the maximum length sequence (Gold '67).
Gold Code
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Presentation OutlineThe ObjectiveStandardization BodyMotivation to work WCDMA ParametersCDMA Transmitter and Receiver: A General ApproachAir Interface ArchitectureWCDMA ChannelsWCDMA Transmitter
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Air Interface Protocol Architecture
Source: [6] Physical Channels
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Presentation OutlineThe ObjectiveStandardization BodyMotivation to work WCDMA ParametersCDMA Transmitter and Receiver: A General ApproachAir Interface ArchitectureWCDMA ChannelsWCDMA Transmitter
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Logical ChannelBroadcast Control Channel (BCCH)
Paging Control Channel (PCCH)
Dedicated Control Channel (DCCH)
Common Control Channel (CCCH)
Shared Channel Control Channel (SHCCH)
ODMA Dedicated Control Channel (ODCCH)
ODMA Common Control Channel (OCCCH)
Control Channel (CCH)
Dedicated Traffic Channel (DTCH)
ODMA Dedicated Traffic Channel (ODTCH)
Common Traffic Channel (CTCH)
Traffic Channel (TCH)
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Transport Channel Dedicated channels. Common channels.
Broadcast Channel (BCH)
Forward Access Channel (FACH)
Paging channel (PCH)
Random Access Channel (RACH)
Common Packet Channel (CPCH)
Downlink Shared Channel (DSCH)
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Physical Channel Uplink Channels
Dedicated physical Channel Common physical Channel
• Downlink ChannelsDownlink Dedicated Physical Channel (DPCH)
Physical Downlink Shared Channel (DSCH)
Primary and Secondary Common Pilot Channels (CPICH)
Primary and Secondary Common Control Physical Channels (CCPCH)
Synchronization Channel (SCH)
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Mapping of Transport channel into Physical Channel
Source: [3]
TFITransport
BlockTFI
Transport Block
TFI TFI
Transport Block & Error
Indication
Transport Block & Error
Indication
Transport Block
Transport Block
Transport Block & Error
Indication
Transport Block & Error
Indication
TFCI Coding & MultiplexingTFCI
DecodingDecoding &
Demultiplexing
Physical Control ch
Physical data ch
Physical Control ch
Physical data ch
Transport Ch 1 Transport Ch 2
Higher Layers
Physical Layer
Transmiter Receiver
• The Transport Channels are Channel Coded and matched to the data rate offered by physical Channels.
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Downlink Physical Channels
The length of a radio frame is 10 ms and one frame consists of 15 time slots.
The number of bits per time slot depends on the physical channel.
There is one downlink dedicated physical channel, one shared and five common control channels
Dedicated Downlink physical channel (DPCH)Physical downlink shared channel (DSCH)Primary and secondary common pilot channels (CPICH)Primary and secondary common control physical channels
(CCPCH)Synchronization channel (SCH)
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Dedicated Downlink Physical Channel (DPCH)
Data 1Ndata1 bits
TPCNTPC bits
TFC1NTFC1 bits
Data2Ndata2 bits
PilotNpilot bits
DPDCH DPCCH DPDCH DPCCH
Tslot = 2560 chips, 10*2k bits (k=0...7)
One radio frame . Tf= 10 ms
Slot #0 Slot#1 Slot #14Slot#i
Source: [25]
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DPDCH and DPCCH Field
SlotFormat
#
Channel Bit rate(kbps)
Channel Symbol
rate (ksps)
SF Bits/slot DPDCH Bits/slot DPCCH Bits/slot TransmittedSlot per
Radio frame NTrNData1 NData2 NTPC NPilot NTFC1
0 15 7.5 512 10 248 1000 8 16 8 15
Source: [25]
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Downlink Dedicated Physical channel
(DPCH)
Fig. Data After SpreadingFig Data after Scrambling
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Simulation of Downlink Channels
Generation of Data
Mapped to I and Q branch
Adjust into Frame by Adding TPC, TFCI bits……
Spreading & Scrambling
Divide to Real and Imag branch
Modulation
Methodology.
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DPCH
According to 3GPP standards, one slot (10ms/15 = .666 ms) layout is asfollows:
|--Data1--|--TPC--|--TFCI--|--Data2--|--pilot--| | 248 | 8 | 8 | 1000 | 16 |
Total bits = 1280, SF=4 ==>num_chips=1280*4=5120chips/slot
Channel rate is 1280(bit/slot)*15(slot) =1920 kbps.
To form a slot and then a frame we need to break our data stream into248-1000-248-1000.........according to Data1 and Data2(format#0).
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Common Downlink Physical channel Common Pilot Channel (CPICH) P-CPICHS-CPICH
Slot #0 Slot#1 Slot #14
Tslot = 2560 chips, 20 bits =10 symbols
One radio frame . Tf= 10 ms
Pre-defined symbol sequence
Slot#i
Fig Common Pilot Channel (CPICH) [25]
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Common Control Physical Channel
Primary-CCPCH
Slot #0 Slot#1 Slot #14
Tslot = 2560 chips, 20 bits
One radio frame . Tf= 10 ms
DataNdata1= 18 bits
Slot#i
Tx OFF
256 chips
• Secondary-CCPCH
Slot #0 Slot#1 Slot #14
Tslot = 2560 chips, 20*2k bits (k=0..6)
One radio frame . Tf= 10 ms
DataNdata1 bits
Slot#i
TFC1NTFC1 bits
PilotNpilot bits
Fig Primary-CCPCH [25] Fig Secondary-CCPCH [25]
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Synchronisation Channel (SCH)The Synchronisation Channel (SCH) is a
downlink signal used for cell search. Consists of Two Channel
acp
acs I,0
acp
acs I,1
acp
acs I,14
Slot #0 Slot #1 Slot # 14
256 chips
2560 chips
One 10 ms SCH radio frame
Primary SCH
Secondary SCH
Fig. Structure of Synchronisation Channel (SCH) [25]
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Synchronisation Code GenerationPSCDefine:a = <x1, x2, x3, …, x16>
a= <1, 1, 1, 1, 1, 1, -1, -1, 1, -1, 1, -1, 1, -1, -1, 1 >
Now PSC is Defined as
Cpsc = (1 + j) × <a, a, a, -a, -a, a, -a, -a, a, a, a, -a, a, -a, a, a>
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Synchronisation Code Generation SSC Define
z = <b, b, b, -b, b, b, -b, -b, b, -b, b, -b, -b, -b, -b, -b>
where
b = <x1, x2, x3, x4, x5, x6, x7, x8, -x9, -x10, -x11, -x12, -x13, -x14, -x15, -x16>
The Hadamard sequences
0 (1)H
1 1
1 1
k kK
k k
H HH
H H
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Synchronisation Code Generation
The k:th SSC, Cssc,k = 1, 2, 3, …, 16 is then defined as:
m=16*(k-1)
Cssc,k = (1 + j) × <hm(0) × z(0), hm(1) × z(1), hm(2) × z(2), …, hm(255) × z(255)>
Scrambling Code Group
#0 #1 #2 #3 #4 #5 #6 #7 #8 #9 #10 #11 #12 #13 #14
Group 0 1 1 2 8 9 10 15 8 10 16 2 7 15 7 16
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PSCH Search
Fig PSCH search
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Presentation OutlineThe ObjectiveStandardization BodyMotivation to work WCDMA ParametersCDMA Transmitter and Receiver: A General ApproachAir Interface ArchitectureWCDMA ChannelsWCDMA Transmitter
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Transmitter
Σ
Σ
Different DownlinkPhysical Channels
G2
G2
Gp
Gs
P-SCH
S-SCH
T
Fig. Combining Different Downlink Physical channel [26]
Complex ValuedChip sequenceFrom summing
operation
Re{T}
Im{T}
Pulse Shaping
Pulse Shaping
SplitReal
&Imaginary
Parts
Cos(ωt)
-Sin(ωt)
QPSKModulated output
Fig. Modulation in WCDMA [26]
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Square Root Raised Cosine Filter
Fig. Magnitude response of Square-Root Raised Cosine Filter Fig. Phase response of Square-Root Raised Cosine Filter
Fig. Impulse response of Square-Root Raised Cosine Filter Fig. Step response of Square-Root Raised Cosine Filter
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Square Root Raised Cosine filter
It is characterised by two values; , the roll-off factor, and , the reciprocal of the symbol-rate.
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Square Root Raised Cosine Response
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Square Root Raised Cosine Filter
Fig. Pole/Zero Plot of Square-Root Raised Cosine Filter
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QPSK modulation of DPCH
Fig. DPCH I channel Modulated by Cos(ωt) Fig DPCH Q channel Modulated by –Sin(ωt)
Fig Transmitted signal Constellation
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Primary Common Control Physical Channel (P-CCPCH)
Fig. Primary Common Control Physical Channel with SSC I branch
Fig. Primary Common Control Physical Channel with SSC Q branch
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Secondary-CCPCH
Fig. Secondary Common Control Physical Channel I branch
Fig. Secondary Common Control Physical Channel Q branch
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Questions
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This Can Be Downloaded From
www.amitdegada.weebly.com/download.html
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Reference[1] J. Schiller, “Mobile Communication”, second edition Pearson Education Private LTD.
[2] Rudolf Tanner and Jason woodword, “WCDMA Requirements and practical design”, John Wiley and Sons LTD.
[3] Holama H. and Toskala A. “WCDMA for UMTS”, John Wiley and Sons LTD.
[4] T Rappaport, “Wireless Communications, Principles and Practices”, Second Edition, Prentice Hall, 2002.
[5] Viterbi Andrew J “CDMA: Principles of spread spectrum communication”, second edition prentice hall LTD.
[6] Proakis J. G. “Digital Communication”, third edition prentice hall LTD.
[7] M. R. Karim and Sarraf M., “W-CDMA and CDMA 2000 for 3G Mobile Networks”, McGrawHill, 2002.
[8] Stallings, W. 2001. “Wireless Communications and Networks” Prentice Hall LTD.
[9] Widrow, B., & Stearns, S.D. 1985 “Adaptive Signal Processing” Prentice Hall: New Jersey
[10] Haykin, S. 2002. “Adaptive Filter Theory” Prentice Hall: Eaglewood Cliffs
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Reference[8] E. Berruto, M. Gudmundson, R. Menolascino, W. Mohr, and M. Pizarroso, “Research activities on UMTS radio interface,
network architectures, and planning,” IEEE Commun. Mag., vol. 36, pp. 82–95, Feb. 1998.
[9] D. Grillo, Ed., “Special section on third-generation mobile systems in Europe”,” IEEE Personal Commun. Mag., vol. 5, pp. 5–38, Apr. 1998.
[10] Bahl P. and Girod B., Eds., “Special section on wireless video,” IEEE Commun. Mag., vol. 36, pp. 92-151, June 1998.
[11] W. Mohr and S. Onoe, “The 3GPP proposal for IMT-2000,” IEEE Commun. Mag., pp. 72-81, Dec. 1999.
[12] Homer, J., Bitmead, R.R., & Mareels, I. 1998. “Quantifying the effects of dimension on the convergence rate of LMS adaptive FIR estimator,” IEEE Transactions on Signal Processing, 46 (10): 2611-2615
[13] Homer, J. 1998. “A review of the developments in adaptive echo cancellation for telecommunications,” Journal of Electrical and Electronics Engineering, Australia, 18(2): 149-164
[14] Homer J., Mareels I., Bitmead R.R., Wahlberg B., & Gustafsson F. “LMS estimation via structural detection” IEEE Transactions on Signal Processing, 46(10): 2651-2663, 1998
[15] A.J. Viterbi, “The Evolution of Digital Wireless Technology from Space Exploration to Personal Communication Ser vices,” IEEE Trans. Veh. Technol., Vol. 43, No. 3, pp. 638—644, August 1994.
[16] D.L. Schilling, “Wireless Communication Going into the 21st Century,” IEEE Trans. Veh. Technol., Vol. 43, No. 3, pp. 645-652, August 1994.
[17] W. Mohr and S. Onoe, “The 3GPP proposal for IMT-2000,” IEEE Commun. Mag., pp. 72-81, Dec. 1999.
[18] B. Girod and N. F¨aber, “Feedback-based error control for mobile video transmission,” IEEE Proceedings, vol. 87, pp. 1707-1723, Oct. 1999.
[19] A.J. Viterbi, “The Evolution of Digital Wireless Technology from Space Exploration to Personal Communication Ser vices,” IEEE Trans. Veh. Technol., Vol. 43, No. 3, pp. 638—644, August 1994.
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Reference[20] D.L. Schilling, “Wireless Communication Going into the 21st Century,” IEEE Trans. Veh. Technol., Vol. 43, No. 3, pp.
645-652, August 1994.
[21] W. Mohr and S. Onoe, “The 3GPP proposal for IMT-2000,” IEEE Commun. Mag., pp. 72-81, Dec. 1999.
[22] Zhang X., Gang. H., “Strategies of improving QoS for Video Transmission over 3G Wireless Network”, Hohai university.
[23] Cherriman P., Hanzo L., “ Robust H.263 Video Transmission over Mobile Channels In interference Limited Environment”, 1st IEEE wireless video communication workshop.
[24] Gharvi H., “Video Transmission for Third Generation Mobile Communication Systems”, Milcom, 2001.
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Reference [3GPP Technical specification]
[25] 3GPP TSG Technical Specification TS 25.211 “Physical channels and mapping of transport channels”.
[26] 3GPP TSG Technical Specification TS 25.213 “Spreading and modulation”
[27] 3GPP TSG Technical Specification TS25.212 “Multiplexing and channel coding (FDD)”
[28] 3GPP TSG Technical Specification TS 25.214 “Physical layer procedures (FDD)”
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Reference [Websites]
[29] CDMA Development Group. 2002. RAKE Receiver: Another Advantage of CDMA over Other Systems. http://www.cdg.org/tech/abcs/lec1/text/abc_1_3_36.txt [Accessed Oct 14 2002].
[30] CDMA seminars on www.cdmaonline.com
[31] WCDMA chapter-6: www.privateline.com/3G/WCDMA.pdf
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Thank You