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© 2005, it - instituto de telecomunicações. Todos os direitos reservados.
Pedro VieiraPaula QueluzAntónio Rodrigues
Improving MIMO Spectral Efficiency in 4G Macro-Cellular Networks
ISEL
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2 | Lisbon, 29th October 2008
Outline
Radio Channel Model Implementation
The FS MIMO Channel Model
LTE MIMO Channel Spectral Efficiency
LTE Spectral Efficiency Expectation
Simulation Results
Conclusions
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Channel Model Implementation (1/2)
The channel model is built
over a previously developed
directional channel model,
which is an extension of
COST 273 channel model.
It introduces terrain and
building information into
radio channel simulation.
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Channel Model Implementation (2/2)Large-Scale Variations and Clustering
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The FS MIMO Channel Model (1/4)
xR(f)
x1(f)
x2(f)
BS (Tx)
x(f)
R elements
MS (Rx)
y(f)
Propagation Channel
yS(f)
y1(f)
y2(f)
S elements
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BSθ
AoDn,δ
, ,n m AoDΔ
AoDmn ,,θ
BSΩ
N
N Cluster n
AoAmn ,,θ
, ,n m AoAΔ
,n AoAδ
MSΩ
MSθ
θv
BS array broadside
MS array broadside
Serving BS sector array
MS direction of travel
MS array
MPC m
v
Tri-sectorized MIMO BS
The FS MIMO Channel Model (2/4)Calculation of Channel Matrix H
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The FS MIMO Channel Model (3/4)The BS Antenna Model
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The FS MIMO Channel Model (4/4)EigenAnalysis
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LTE MIMO FS Channel Spectral Efficiency (1/5)
Power Allocation Strategies:
Uniform
Spatial Water-fillingLTE System Bandwidth Efficiency
SNR Efficiency
MIMO Channel (Eigenvalues)Radio Link SNR (S/N)
LTE Transmission Bandwidth
It depends on:
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LTE MIMO FS Channel Spectral Efficiency (2/5)LTE Bandwidth Efficiency
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LTE MIMO FS Channel Spectral Efficiency (3/5)LTE SNR Efficiency
LTE uses Adaptive
Modulation and Coding
(AMC).
SNR Efficiency will be
determined using curve
fitting over the LTE AMC
composite spectral
efficiency.
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LTE MIMO FS Channel Spectral Efficiency (4/5)LTE SNR Efficiency
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LTE MIMO FS Channel Spectral Efficiency (5/5)Radio Link SNR (S/N)
SNR is actually a SINR…
SINR is dependent on
the network geometry,
retrieved by the Gfactor.
Gfactor CDF for Lisbon Radio Environment
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LTE Spectral Efficiency Expectation (1/2)
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MIMO LTE Spectral Efficiency Expectation (2/2)
SISO spectral efficiency
is 1.24 bit/s/Hz.
MIMO spatial multiplexing
and waterfilling produces
a 92%, 169% and 235%
average gain for MIMO
2x2, 3x3 e 4x4 configs.
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ConclusionsThis paper studies the MIMO capacity enhancement considering
the UMTS DL LTE technology, for Lisbon Macro-cell RE.The MIMO spatial multiplexing concept is presented, and the
associated LTE downlink capacity is calculated including the effects of system bandwidth and SNR efficiency.
The SNR efficiency using AMC was approximated using curve fitting, where the used fitting function is an attenuated and truncated form of the Shannon bound.
Starting with a SISO spectral efficiency of 1.24 bit/s/Hz, MIMO spatial multiplexing and waterfilling produces a 92%, 169% and 235% average gain for MIMO 2x2, 3x3 e 4x4 configs.