ergodic capacity of mimo relay channel bo wang and junshan zhang dept. of electrical engineering...
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![Page 1: Ergodic Capacity of MIMO Relay Channel Bo Wang and Junshan Zhang Dept. of Electrical Engineering Arizona State University Anders Host-Madsen Dept. of Electrical](https://reader030.vdocuments.us/reader030/viewer/2022032704/56649d445503460f94a20b97/html5/thumbnails/1.jpg)
Ergodic Capacity of MIMO
Relay Channel
Bo Wang and Junshan Zhang
Dept. of Electrical Engineering
Arizona State University
Anders Host-Madsen
Dept. of Electrical Engineering
University of Hawaii
CISS’ 2004
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Outline
Introduction Review of capacity bounds for fixed channel case Bounds on ergodic capacity over Rayleigh fading Discussions on achievability on ergodic capacity:
High SNR case Scalar channel case
Numerical results Conclusion
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MIMO Relay Channel Model
Vector relay channel -- source, destination and/or relay are equipped with multiple antennas
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Cont’d
Signal model
, and : , and independent matrices SNR parameters:
Power constraints: Noise vectors:
2H 3H
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Capacity Bounds of Relay Channel Upper bound (max-flow min-cut)
General channel [Cover & El Gamal 79]
Degraded channel: achieve upper bound Lower bound – achievable rates
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MIMO Relay Channel Capacity Challenges
Non-degraded Vector channel: maximization over matrices
We study capacity bounds [Wang-Zhang03] Fixed Channel case Rayleigh fading channel case
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Upper Bound: Fixed Channel Case Theorem 1: An upper bound on capacity of MIMO
relay channel is given by
where and
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Capacity Bounds: Rayleigh Fading Case Upper bound on ergodic capacity over Rayleigh
fading (receiver CSI only)
Theorem 2:
a). An upper bound on ergodic capacity is given by
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Cont’d
b). A lower bound on ergodic capacity is given by
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Some Intuition
Upper bound and lower bound can “meet” under certain conditions
Ergodic capacity can be characterized exactly; previously, this was shown only for degraded relay channel (fixed channel case)
Independent codebooks at source and relay Channel uncertainty (randomness) at transmitters
make and independent Relaying improves capacity by achieving MAC gain
and BC gain
1X 2X
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Some Intuition ( cont’d)
Question: sufficient conditions for achieving ergodic capacity? Recall upper bound and lower bound: common term Ergodic Capacity can be Observation: If and , upper bound meets
lower bound at
RR CC 12 RR CC 32
RC2RC2
RC2
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Outline of Proof: Upper Bound on Ergodic Capacity Apply Gaussian codebooks
,
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Cont’d Choosing
maximizes :
The same distributions maximize
Thanks Dr. Kramer for his comments on this proof.
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Outline of Proof: Lower Bound on Ergodic Capacity Without relay: single-user MIMO channel With relay, following rate can be achieved
Consider fading:
Independent input signals maximize above rates
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Conditions on Capacity Achievability Numbers of antennas = 2 in all cases Case I:
Case II:
Case III:
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Case I: 321
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Case II: and 21 23 10
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Case III : and , upper bound meets lower bound
21
32 21 10
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Discussions on Capacity Achievability Assume numbers of antennas Upper bound is given by , iff Remains to find conditions for An upper bound on
Study two cases: High SNR Regime Scalar Channel case
N
RR CC 32
RC2
RC2
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High SNR Regime
Approximate by
Approximate upper bound on by
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High SNR Regime (cont’d)
Example:
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Sufficient conditions for achieving capacity can be viewed as a generalization of “degradedness” to fading channels
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Scalar Channel
Compute and
Compare them to find sufficient conditions
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Conclusion and Future Work Study upper bounds and lower bounds on capacity of
MIMO relay channel over Rayleigh fading (full version at www.eas.asu.edu/~junshan/)
For equal numbers of antenna cases: Find sufficient conditions for achieving ergodic capacity Sufficient conditions can be viewed as a generalization of
“degradedness” to fading channels Future work on correlated fading channel and partial CSI cases, and
study sufficient conditions for achieving ergodic capacity
Other results: ergodic capacity and power allocation for relay channel over Rayleigh fading, for both full-duplex and time-division cases. (Host-Madsen & Zhang03)
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Questions?
& Thank You!
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Single-user MIMO Channel Capacity Channel Model: Capacity of fixed channel:
Ergodic capacity: time varying, receiver CSI only [Telatar 99, Foschini & Gans 98]