Title of article
Transceiver Optimization for Block-Based Multiple Access Through ISI Channels.
Author/Authors
Z.-Q. Luo، نويسنده , , T. N. Davidson، نويسنده , , G. B. Giannakis، نويسنده , , Grace K. M. Wong، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
16
From page
1037
To page
1052
Abstract
In this paper, we describe a formulation of the
minimum mean square error (MMSE) joint transmitter-receiver
design problem for block-based multiple access communication
over intersymbol interference (ISI) channels. Since the direct
formulation of this problem turns out to be nonconvex, we develop
various alternative convex formulations using techniques of linear
matrix inequalities (LMIs) and second-order cone programming
(SOCP). In particular, we show that the optimal MMSE transceiver
design problem can be reformulated as a semidefinite
program (SDP), which can be solved using highly efficient interior
point methods. When the channel matrices are diagonal (as in
cyclic prefixed multicarrier systems), we show that the optimal
MMSE transceivers can be obtained by subcarrier allocation
and optimal power loading to each subcarrier for all the users.
Moreover, the optimal subcarrier allocation and power-loading
can be computed fairly simply (in polynomial time) by the relative
ratios of the magnitudes of the subchannel gains corresponding
to all subcarriers. We also prove that any two users can share no
more than one subcarrier in the optimal MMSE transceivers. By
exploiting this property, we design an efficient strongly polynomial
time algorithm for the determination of optimal powerloading
and subcarrier allocation in the two-user case.
Keywords
orthogonal frequency division multiplexing , time divisionmultiple access. , intersymbolinterference , frequency division multiple access
Journal title
IEEE TRANSACTIONS ON SIGNAL PROCESSING
Serial Year
2004
Journal title
IEEE TRANSACTIONS ON SIGNAL PROCESSING
Record number
403531
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