X-Git-Url: https://git.martlubbers.net/?a=blobdiff_plain;f=back%2Fsummary.tex;fp=back%2Fsummary.tex;h=3713f33293efba8a0521e35a4f6bbb8629fa8e12;hb=37e6240fbe3b2d1d8e6babdcc8c48b1b78f31999;hp=3fbb2a5646ae733c0bd6b8aa6366c08803c76b72;hpb=cdb3ae89b207b609a67f3436d02b7eed6aa4a3ce;p=phd-thesis.git

diff --git a/back/summary.tex b/back/summary.tex
index 3fbb2a5..3713f33 100644
--- a/back/summary.tex
+++ b/back/summary.tex
@@ -7,8 +7,6 @@
 \ifSubfilesClassLoaded{\chapter*{Summary}}{\chapter{Summary}}%
 \label{chp:summary}%
 \glsresetall%
-%\begin{center}
-%\noindent%
 The number of computers around us is growing exponentially, compounding the complexity of the systems in which they operate.
 Many of these computers are \emph{edge devices} operating in \gls{IOT} systems.
 Within these orchestrations of computers, they interact with the environment using sensors and actuators.
@@ -39,5 +37,4 @@ All aspects of the \gls{MTASK} system are shown: example applications, language
 When using \gls{MTASK} in conjunction with \gls{ITASK}, entire \gls{IOT} systems are programmed tierlessly from a single source, language, paradigm, high abstraction level, and type system.
 Many problems such as semantic friction; maintainability and robustness issues; and interoperation safety are mitigated when using tierless programming.
 %This is a summary of 350--400 words.
-%\end{center}
 \end{document}