SMART ANTENNAS FOR THIRD GENERATION TDMA...
Transcript of SMART ANTENNAS FOR THIRD GENERATION TDMA...
![Page 1: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/1.jpg)
1
SMART ANTENNAS FOR THIRD GENERATIONTDMA (EDGE)
Jack H. Winters
AT&T Labs - Research
Middletown, NJ 07748
November 27, 2000
![Page 2: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/2.jpg)
2
OUTLINE
• Smart Antenna Overview
• 2G System Applications
• 3G System Applications:– EDGE
– MIMO-EDGE
– OFDM-MIMO-EDGE
• Conclusions
![Page 3: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/3.jpg)
3
WIRELESS SYSTEM IMPAIRMENTSWireless communication systems are limited inperformance and capacity by:
DelaySpread CoChannel
Interference
RayleighFading
Limited Spectrum
![Page 4: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/4.jpg)
4
SMART ANTENNAS
Today: Cellular systems with sectorization (120°) ⇒handoffs between sectors
For higher performance ⇒ Narrower sectors ⇒ Toomany handoffs
Smart Antenna definition: Multibeam antenna oradaptive array without handoffs between beams
f1
f2f3
f4
f5
f6
![Page 5: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/5.jpg)
5
Smart Antennas
Smart Antennas can significantly improve the performance of wireless systems
• Higher antenna gain / diversity gain ⇒ Range extension and multipath mitigation
• Interference suppression ⇒ Quality and capacity improvement
• Suppression of delayed signals ⇒ Equalization of ISI for higher data rates
• Multiple signals in the same bandwidth ⇒ Higher data rates
Switched Multibeam versus Adaptive Array Antenna: Simple beam tracking, but limitedinterference suppression and diversity gain
SIGNALOUTPUT
SIGNAL
INTERFERENCE
INTERFERENCEBEAMFORMER
WEIGHTS
SIGNALOUTPUT
BEAMSELECT
SIGNAL
BE
AM
FO
RM
ER
Adaptive Antenna ArraySwitched Multibeam Antenna
![Page 6: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/6.jpg)
6
BASE STATION DIVERSITY OPTIONS(4 ANTENNAS)
24λ (12 ft)3λ (1.5 ft)
3λ or 24λ
Spatial Diversity Angle DiversityPolarization
Diversity
![Page 7: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/7.jpg)
7
Smart Antennas
Rooftop Base Station Antennas
11.3 ft
Prototype DualAntenna Handset
Prototype SmartAntenna for Laptops
![Page 8: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/8.jpg)
8
INTERFERENCE NULLINGLine-Of-Sight Systems
Utilizes spatial dimension of radio environment to:
• Maximize signal-to-interference-plus-noise ratio
• Increase gain towards desired signal
• Null interference: M-1 interferers with M antennas
User 1
User 2
∑ User 1
Signal•••
![Page 9: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/9.jpg)
9
INTERFERENCE NULLINGMultipath Systems
User 1
User 2
∑ User 1
Signal•••
Antenna pattern is meaningless, but performance is based on the numberof signals, not number of paths (without delay spread).
=> A receiver using adaptive array combining with M antennas and N-1interferers can have the same performance as a receiver with M-N+1 antennasand no interference, i.e., can null N-1 interferers with M-N+1 diversityimprovement (N-fold capacity increase).
![Page 10: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/10.jpg)
10
MIMO CAPACITY INCREASE
• With M antennas at both the base station and mobiles, M independent channels can beprovided in the same bandwidth if the multipath environment is rich enough.
• 1.2 Mbps in a 30 kHz bandwidth using 8 transmit and 12 receive antennasdemonstrated by Lucent (indoors).
• Separation of signals from two closely-spaced antennas 5 miles from the basestation demonstrated by AT&T/Lucent.
![Page 11: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/11.jpg)
11
• Delay spread: Delay spread over [(M-1) / 2]T or M-1 delayed signals(over any delay) can be eliminated
• Typically use temporal processing with spatial processing forequalization:
EQUALIZATION
LE
LE
MLSE/DFE∑
![Page 12: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/12.jpg)
12
SMART ANTENNAS IN SECONDGENERATION SYSTEMS
• IS-136 TDMA:– On uplink, with two receive antennas, in 1999 changed
from maximal ratio combining to optimum combining• Software change only - provided 3-4 dB gain in interference-
limited environments
• Combined with power control on downlink (software changeonly) - increased capacity through frequency reuse reduction
– Use of 4 antennas (adaptive array uplink/multibeam,with power control, downlink) extends range and/ordoubles capacity (N=7 to 4 or 3)
• Clears spectrum for EDGE deployment (2001)
![Page 13: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/13.jpg)
13
IS-136 Smart Antenna System
ADAPTIVE ANTENNARECEIVER
4 Branches
TRANSMITTER
RADIO UNIT
RSSI, BER
DUPLEXERS
BEAM SCANNINGRECEIVER
1 per N radios•
SPL
ITT
ER
Power ControlShared LPAs
Atten
Atten
Atten
Atten
• 4 Branch adaptive antenna uplink for rangeextension and interference suppression
• Fixed switched beam downlink with power controlfor increased coverage and capacity
• Uplink and downlink are independent
• Shared linear power amplifiers reduce amplifierrequirements to handle maximum traffic load
![Page 14: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/14.jpg)
14
SMART ANTENNAS IN THIRD GENERATIONSYSTEMS: EDGE
• High data rate ( 384 kbps) service based on GSM, for both Europeand North America
• 8PSK at 270.833 ksps
• 26 symbol training sequence
• 1/3, 3/9 or 4/12 reuse
576.92 µs
58 5826 8.2533
![Page 15: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/15.jpg)
15
ADAPTIVE ARRAYS IN EDGE
Spatial-Temporal processing using DDFSE for interference suppression
![Page 16: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/16.jpg)
16
ADAPTIVE ARRAYS IN EDGE
![Page 17: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/17.jpg)
DDFSEEqualizer
ChannelDecoder
Rx
Rx
OutputData
EDGE Smart Antenna ProcessingDual Diversity Receiver Using Delayed Decision Feedback Sequence Estimator
for Joint Intersymbol Interference and Co-channel Interference Suppression
• Simulation results show a 15 to 30 dBimprovement in S/I with 2 receiveantennas
• Real-time EDGE Test Bed supportslaboratory and field link level tests todemonstrate improved performance
Wireless Systems Research
Blo
ck E
rro
r R
ate
Signal -to-Interference Ratio (dB)
EDGE with Interference Suppression in a Typical Urban Environment
![Page 18: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/18.jpg)
Multiple-Input Multiple-Output (MIMO)Techniques for 3G Wireless Systems
• Multiple antennas at both the base station and terminal can significantlyincrease data rates if the multipath environment is rich enough
sufficient multipath ⇒⇒ low correlation ⇒⇒ high spectral efficiency
• With 4 transmit and receive antennas 4 independent data channels can beprovided in the same bandwidth
• Data rates as high as 1.5 Mbps (4x384 kbps) may be possible for EDGE oras high as 40 Mbps for Wideband OFDM (also can be used in WCDMA)
![Page 19: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/19.jpg)
19
MIMO-EDGE
• Goal: 4 transmit / 4 receive antennas in EDGE cantheoretically increase capacity 4-fold with the same totaltransmit power (3.77X384 kbps = 1.45 Mbps is actualtheoretical increase)
• Issues:– Joint spatial-temporal equalization
– Weight adaptation
– Mobile channel characteristics to support MIMO-EDGE
• Our approach:– Development of multi-antenna EDGE testbed
– Development of 2X2 and 4X4 DDFSE architecture with MMSEcombining using successive interference cancellation
– Mobile channel measurements
![Page 20: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/20.jpg)
20
MIMO Channel Testing
TxW1
TxW2
TxW3
TxW4
LO
Synchronoustest
sequences
Rx
Rx
Rx
Rx
• Record complexcorrelation ofeach transmitwaveform on eachreceive antenna,C4x4
• Compute CHCcorrelation matrixto determinepotential capacityand predictperformance
• Compute fadingcorrelation acrossreceive array
LO
Mobile Transmitter Test Bed Receiver with RooftopAntennas
Transmit AntennaConfigurations
Space diversity
Space / polarization diversity
Space / pattern diversity
Space / polarization / pattern diversity
![Page 21: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/21.jpg)
21
MIMO Channel Measurement System
Transmitter
• 4 antennas mounted on a laptop
• 4 coherent 1 Watt 1900 MHz transmitterswith synchronous waveform generator
Receive System
• Dual-polarized slant 45° PCS antennas separated by10 feet and fixed multibeam antenna with 4 - 30° beams
• 4 coherent 1900 MHz receivers with real-time basebandprocessing using 4 TI TMS320C40 DSPs
![Page 22: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/22.jpg)
22
![Page 23: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/23.jpg)
23
EDGE with Wideband OFDM -MIMO Downlink
• High data rates (>1 Mbps) required ondownlink only
• OFDM eliminates need for temporalprocessing => simplified MIMO processingfor much higher data rates
• With 1.25 MHz bandwidth, QPSK, OFDM-MIMO with 4 antennas at base station andterminal => 10 Mbps downlink
![Page 24: SMART ANTENNAS FOR THIRD GENERATION TDMA (EDGE)boya.xmu.edu.cn/emwbexp/innovation/AntennaPattern... · SMART ANTENNA EVOLUTION FOR TDMA • IS-136: • Optimum combining uplink](https://reader030.fdocuments.us/reader030/viewer/2022040913/5e88e9e2296de840bf66e3bc/html5/thumbnails/24.jpg)
24
SMART ANTENNA EVOLUTION FOR TDMA
• IS-136:
• Optimum combining uplink / power control downlink at all basestations with existing 2Rx/1Tx antennas
• 4Rx/4Tx antenna upgrade (adaptive uplink/multibeam downlink) forN=7 to 4 to clear spectrum for EDGE
• EDGE:
• S-T processing with IS-136 smart antennas (Data followed by VoIP)
• MIMO-EDGE (1.5 – 2.4 Mbps)
• Wideband OFDM-MIMO downlink (10 - 40 Mbps)
• 4Rx/4Tx base station with software radio for software evolution at basestation with terminal replacements
• Research issues: Deployment strategies / integration with DCA, PC, adaptivemodulation and coding / improved weight adaptation with CCI