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On the Achievable Diversity-Multiplexing Tradeoff in MIMO Fading Channels with Imperfect CSIT
In this paper, we analyze the fundamental tradeoff of diversity and
multiplexing in multi-input multi-output (MIMO) channels with imperfect channel
state information at the transmitter (CSIT). We show that with imperfect CSIT,
a higher diversity gain as well as a more efficient diversity-multiplexing
tradeoff (DMT) can be achieved. In the case of multi-input single-output
(MISO)/single-input multi-output (SIMO) channels with K transmit/receive
antennas, one can achieve a diversity gain of d(r)=K(1-r+K\alpha) at spatial
multiplexing gain r, where \alpha is the CSIT quality defined in this paper.
For general MIMO channels with M (M>1) transmit and N (N>1) receive antennas,
we show that depending on the value of \alpha, different DMT can be derived and
the value of \alpha has a great impact on the achievable diversity, especially
at high multiplexing gains. Specifically, when \alpha is above a certain
threshold, one can achieve a diversity gain of d(r)=MN(1+MN\alpha)-(M+N-1)r;
otherwise, the achievable DMT is much lower and can be described as a
collection of discontinuous line segments depending on M, N, r and \alpha. Our
analysis reveals that imperfect CSIT significantly improves the achievable
diversity gain while enjoying high spatial multiplexing gains