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Andreas Tsouchlos 2023-04-13 16:39:26 +02:00
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5
latex/thesis/abbreviations.tex
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@ -70,6 +70,11 @@
long = maximum likelihood long = maximum likelihood
} }
\DeclareAcronym{MIMO} {
short = MIMO,
long = multiple-input multiple-output
}
% %
% I % I
% %

29
latex/thesis/chapters/discussion.tex
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@ -1,12 +1,15 @@
\chapter{Discussion}% \chapter{Discussion}%
\label{chapter:discussion} \label{chapter:discussion}
While the modified proximal decoding algorithm presented in section A modification of the implementation to reduce the memory requirements, even
\ref{sec:prox:Improved Implementation} shows some promising results, further at some cost with regard to the running time, would allow for the examination
investigation is required to determine how different choices of parameters of longer codes.
affect the decoding performance. This in turn would make possible studying the behavior of the decoding
Additionally, a more mathematically rigorous foundation for determining the algorithms covered here in error-rate regions where traditional approaches
potentially wrong components of the estimate is desirable. exhibit an error floor.
The decoding algorithms could then be assessed for use in very
high reliability applications, where traditional methods like \ac{BP} or the
min-sum-algorithm fall short.
As mentioned in section \ref{subsec:prox:conv_properties}, the alternating As mentioned in section \ref{subsec:prox:conv_properties}, the alternating
minimization of the two gradients in the proximal decoding algorithm leads to minimization of the two gradients in the proximal decoding algorithm leads to
@ -23,6 +26,18 @@ constraints are never truly satisfied; not even after the minimization step
dealing with the constraint part of the objective function. dealing with the constraint part of the objective function.
Despite this, an initial examination by Yanxia Lu in Despite this, an initial examination by Yanxia Lu in
\cite[Sec. 4.2.4.]{yanxia_lu_thesis} shows only limited success. \cite[Sec. 4.2.4.]{yanxia_lu_thesis} shows only limited success.
It is also important to note that while in this thesis proximal decoding was
examined with respect to its performance in \ac{AWGN} channels, in
\cite{proximal_paper} it is presented as a method applicable to non-trivial
channel models such as \ac{LDPC}-coded massive \ac{MIMO} channels, perhaps
broadening its usefulness beyond what is shown here.
While the modified proximal decoding algorithm presented in section
\ref{sec:prox:Improved Implementation} shows some promising results, further
investigation is required to determine how different choices of parameters
affect the decoding performance.
Additionally, a more mathematically rigorous foundation for determining the
potentially wrong components of the estimate is desirable.
Another interesting approach might be the combination of proximal and \ac{LP} Another interesting approach might be the combination of proximal and \ac{LP}
decoding. decoding.