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PROPAGATION ASPECTS FOR SMART ANTENNAS IN WIRELESS SYSTEMS JACK H. WINTERS

PROPAGATION ASPECTS FOR SMART ANTENNAS IN WIRELESS SYSTEMS JACK H. WINTERS. AT&T Labs - Research Red Bank, NJ 07701-7033 jhw@research.att.com July 17, 2000. OUTLINE. Antenna types Potential gains Propagation issues Measurements needed Conclusions. Smart Antennas. SIGNAL. SIGNAL.

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PROPAGATION ASPECTS FOR SMART ANTENNAS IN WIRELESS SYSTEMS JACK H. WINTERS

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  1. PROPAGATION ASPECTS FOR SMART ANTENNAS IN WIRELESS SYSTEMS JACK H. WINTERS AT&T Labs - Research Red Bank, NJ 07701-7033 jhw@research.att.com July 17, 2000

  2. OUTLINE • Antenna types • Potential gains • Propagation issues • Measurements needed • Conclusions

  3. Smart Antennas SIGNAL SIGNAL BEAM SELECT SIGNAL OUTPUT BEAMFORMER INTERFERENCE BEAMFORMER WEIGHTS INTERFERENCE Phased Array Adaptive Antenna Array SIGNAL OUTPUT Smart Antenna Definition: Phased array or adaptive array antenna which adjusts to the environment.

  4. Smart Antennas 11.3 ft Prototype Dual Antenna Handset Rooftop Base Station Antennas Prototype Smart Antenna for Laptops

  5. Potential Gains: ANTENNA AND DIVERSITY GAIN • Antenna Gain: Increased average output signal-to-noise ratio • - Gain of M with M antennas • - Narrower beam with /2-spaced antenna elements • Diversity Gain: Decreased required receive signal-to-noise ratio for a given BER averaged over fading (requires multipath) • - Depends on BER - Gain for M=2 vs. 1: • 5.2 dB at 10-2 BER • 14.7 dB at 10-4 BER • - Decreasing gain increase with increasing M - 10-2 BER: • 5.2 dB for M=2 • 7.6 dB for M=4 • 9.5 dB for M= • - Depends on fading correlation

  6. Potential Gains: • Range increase: Antenna gain of M plus M-fold multipath diversity gain • Capacity increase: Suppress up to M-1 interferers for higher frequency reuse • Data rate increase: MIMO increase with M spatial channels

  7. Propagation Issues: • Angular spread: • Decreases gain of multibeam antennas (phased arrays) • Increases diversity gain of adaptive arrays (reduces correlation) • Makes interference suppression independent of AOA • Increases data rate gain with MIMO (reduces correlation) • Delay spread • Limits data rate w/o equalization • Increases diversity gain with equalization • Multipath richness • Determines maximum data rate with MIMO

  8. PHASED ARRAYS • Fixed (or steerable) beams • Consider cylindrical array with M elements (/2 spacing) • - Diameter  (M / 4) feet at 2 GHz • With small scattering angle ( = 4): • - Margin = 10log10M (dB) • - Number of base stations = M-1/2 • - Range = M1/4 • Disadvantages: • - No diversity gain (unless use separate antenna) • - With large scattering angle , gain is limited for beamwidths   r Mobile  Base Station

  9. Range Increase for IS-136 Fixed Multibeam Antenna • Increases gain for better coverage • Range increase is limited by angular spread • No spatial diversity gain • Can be used on downlink or uplink Adaptive Array • Range increase independent of angular spread • Diversity gain increases with antenna spacing • Can be used on uplink with fixed multibeam downlink

  10. User 1 User 1 Signal  • • • User 2 INTERFERENCE NULLING Line-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

  11. INTERFERENCE NULLING Multipath Systems User 1 User 1 Signal  • • • User 2 Antenna pattern is meaningless, but performance is based on the number of signals, not number of paths (without delay spread). => A receiver using adaptive array combining with M antennas and N-1 interferers can have the same performance as a receiver with M-N+1 antennas and no interference, i.e., can null N-1 interferers with M-N+1 diversity improvement (N-fold capacity increase).

  12. 0 • AAA(avg.) • REF (avg.) • AAA (data) • REF (data) • Theory • Laboratory Results -0.5 -1 -1.5 -2 -2.5 -3 -3.5 -4 10 20 30 0 INTERFERENCE SUPPRESSION - ADJACENT INTERFERER Spatial Diversity: S/I = 0dB, AAA with 4 antennas vs. REF with 2 antennas BER (log) SNR (dB)

  13. MIMO CAPACITY INCREASE • With M antennas at both the base station and mobiles, M independent channels can be provided 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 antennas demonstrated by Lucent (indoors). • Separation of signals from two closely-spaced antennas 5 miles from the base station demonstrated by AT&T/Lucent.

  14. MIMO Channel Testing Transmit Antenna Configurations Mobile Transmitter Test Bed Receiver with RooftopAntennas W1 Tx Rx • Record complex correlation of each transmit waveform on each receive antenna, C4x4 • Compute CHC correlation matrix to determine potential capacity and predict performance • Compute fading correlation across receive array Space diversity W2 Tx Rx Rx W3 Tx Space / polarization diversity Rx W4 Tx Synchronous test sequences LO LO Space / pattern diversity Space / polarization / pattern diversity

  15. Measurements Needed: • Multipath richness for MIMO: • 2-fold for rooftop to rooftop (fixed wireless) • At least 4-fold for outdoor • As high as 150-fold indoor • Delay spread • Angular spread • Polarization

  16. Conclusions • Propagation environment influences smart antenna architecture and wireless system gains: • Large angular spread decreases effectiveness of multibeam antennas but increases adaptive array’s range, interference suppression, MIMO data rate increase • Large delay spread limits data rate, but with S-T processing or OFDM increases diversity gain • Multipath limits range, but with MIMO increases data rate • Additional measurements in wide range of environments still needed

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