1,631 research outputs found
On the Linear Precoder Design for MIMO Channels with Finite-Alphabet Inputs and Statistical CSI
This paper investigates the linear precoder design that maximizes the average
mutual information of multiple-input multiple-output channels with
finite-alphabet inputs and statistical channel state information known at the
transmitter. This linear precoder design is an important open problem and is
extremely difficult to solve: First, average mutual information lacks
closed-form expression and involves complicated computations; Second, the
optimization problem over precoder is nonconcave. This study explores the
solution to this problem and provides the following contributions: 1) A
closed-form lower bound of average mutual information is derived. It achieves
asymptotic optimality at low and high signal-to-noise ratio regions and, with a
constant shift, offers an accurate approximation to the average mutual
information; 2) The optimal structure of the precoder is revealed, and a
unified two-step iterative algorithm is proposed to solve this problem.
Numerical examples show the convergence and the efficacy of the proposed
algorithm. Compared to its conventional counterparts, the proposed linear
precoding method provides a significant performance gain.Comment: 5 pages, 3 figures, accepted by IEEE Global Communications Conference
(GLOBECOM) 2011, Houston, T
Unequal Error Protected JPEG 2000 Broadcast Scheme with Progressive Fountain Codes
This paper proposes a novel scheme, based on progressive fountain codes, for
broadcasting JPEG 2000 multimedia. In such a broadcast scheme, progressive
resolution levels of images/video have been unequally protected when
transmitted using the proposed progressive fountain codes. With progressive
fountain codes applied in the broadcast scheme, the resolutions of images (JPEG
2000) or videos (MJPEG 2000) received by different users can be automatically
adaptive to their channel qualities, i.e. the users with good channel qualities
are possible to receive the high resolution images/vedio while the users with
bad channel qualities may receive low resolution images/vedio. Finally, the
performance of the proposed scheme is evaluated with the MJPEG 2000 broadcast
prototype
Rateless Codes with Progressive Recovery for Layered Multimedia Delivery
This paper proposes a novel approach, based on unequal error protection, to
enhance rateless codes with progressive recovery for layered multimedia
delivery. With a parallel encoding structure, the proposed Progressive Rateless
codes (PRC) assign unequal redundancy to each layer in accordance with their
importance. Each output symbol contains information from all layers, and thus
the stream layers can be recovered progressively at the expected received
ratios of output symbols. Furthermore, the dependency between layers is
naturally considered. The performance of the PRC is evaluated and compared with
some related UEP approaches. Results show that our PRC approach provides better
recovery performance with lower overhead both theoretically and numerically
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